Tag: Energy Efficiency Award

Md Sanwar Hossain | Power Electronics | Best Researcher Award

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Mr. Md Sanwar Hossain | Power Electronics | Best Researcher Award

University of Wollongong, Australia

Md Sanwar Hossain is an accomplished researcher and academic with a strong background in electrical and electronic engineering. With over a decade of experience in research and academia, he has significantly contributed to the fields of renewable energy, smart grids, power electronics, and the Internet of Things (IoT). His extensive publication record includes 38 journal articles in high-impact journals such as IEEE Access, Applied Energy, and Sustainability. He has actively collaborated with international researchers, expanding the impact of his research globally. In addition to his research contributions, he has played a vital role in mentoring students, supervising research projects, and reviewing scholarly articles for prestigious journals. His commitment to advancing technology and engineering solutions for sustainable energy systems has earned him recognition and awards, including the Annual Research Publication Award in 2020. With a passion for innovation, he continues to explore cutting-edge developments in energy efficiency, smart grids, and hybrid power solutions. Through his academic and research endeavors, Md Sanwar Hossain aims to bridge the gap between theoretical advancements and practical applications, ultimately contributing to a more sustainable and efficient energy future. His dedication and expertise make him a leading figure in his field, driving impactful change through research and education.

Professional Profile

Education

Md Sanwar Hossain has a strong academic foundation in electrical and electronic engineering, with degrees from prestigious institutions. He earned his Bachelor of Science in Electrical and Electronic Engineering from a reputed university, where he developed a deep understanding of fundamental electrical principles and systems. He then pursued a Master of Science in Electrical Engineering, specializing in power electronics and renewable energy systems. His postgraduate research focused on enhancing the efficiency of energy conversion systems, laying the groundwork for his future research contributions. To further advance his expertise, he completed his Ph.D. in Electrical Engineering with a specialization in smart grids and energy management systems. During his doctoral studies, he worked on developing innovative solutions for integrating renewable energy sources into modern power grids, emphasizing efficiency, reliability, and sustainability. His educational background has provided him with a solid technical and research-oriented approach to solving complex engineering challenges. Throughout his academic journey, he has remained committed to continuous learning and professional development, attending workshops, seminars, and certifications to stay updated with the latest advancements in electrical engineering. His strong academic credentials and research focus have positioned him as a thought leader in the field of renewable energy and smart power systems.

Professional Experience

Md Sanwar Hossain has accumulated extensive professional experience in both academia and research institutions. He has served as a faculty member in various universities, where he has taught undergraduate and postgraduate courses in electrical engineering, power systems, and renewable energy. His teaching career has been complemented by his role as a research supervisor, guiding students in their thesis and dissertation projects. He has also worked as a senior researcher in multiple projects focused on developing sustainable energy solutions and smart grid technologies. His experience extends beyond academia, as he has collaborated with industry professionals on various research initiatives, bridging the gap between theoretical advancements and real-world applications. Additionally, he has contributed to the engineering community as a reviewer for several high-impact journals, ensuring the quality and integrity of published research. His professional engagements also include participation in international conferences, where he has presented his research findings and networked with experts in his field. His diverse experience in teaching, research, and industry collaborations has enriched his expertise, allowing him to contribute meaningfully to the advancement of electrical engineering and energy systems. His dedication to knowledge dissemination and innovation has solidified his reputation as a distinguished professional in his field.

Research Interest

Md Sanwar Hossain’s research interests span multiple critical areas within electrical engineering, with a primary focus on renewable energy systems, smart grids, and power electronics. He is particularly interested in developing efficient and sustainable energy solutions that can be integrated into modern power systems. His research explores advanced energy conversion technologies, energy storage solutions, and hybrid power systems to optimize energy use and reduce environmental impact. Additionally, he has a strong interest in the Internet of Things (IoT) and its applications in energy management, aiming to enhance automation and efficiency in smart grids. His work also involves solid-state transformers and power electronic converters, which are essential for improving the efficiency of power transmission and distribution networks. Furthermore, he is engaged in research on artificial intelligence and machine learning applications in energy optimization, predictive maintenance, and fault detection in electrical systems. His interdisciplinary approach allows him to tackle complex energy challenges from multiple perspectives, integrating theoretical research with practical applications. By continuously exploring innovative technologies and methodologies, he strives to contribute to the development of sustainable, intelligent, and resilient energy infrastructure that meets the needs of modern society.

Research Skills

Md Sanwar Hossain possesses a diverse set of research skills that have contributed to his success as a researcher and academic. His expertise in experimental research methodologies enables him to design and conduct experiments related to power electronics, renewable energy systems, and smart grids. He is proficient in using simulation tools such as MATLAB/Simulink, PSCAD, and PLECS for modeling and analyzing electrical systems. Additionally, he has strong programming skills in Python and C++, which he uses for developing algorithms related to energy optimization and control systems. His ability to analyze large datasets allows him to extract meaningful insights from energy system data, facilitating informed decision-making in research projects. He is also skilled in writing and publishing high-quality research papers, with experience in manuscript preparation, peer-review processes, and grant proposal writing. Furthermore, he has experience in experimental prototyping, hardware implementation, and system integration, enabling him to translate theoretical models into practical solutions. His collaborative skills allow him to work effectively with interdisciplinary teams, contributing to large-scale research initiatives. His combination of technical expertise, analytical abilities, and research acumen makes him a valuable asset in the field of electrical and electronic engineering.

Awards and Honors

Md Sanwar Hossain has received multiple awards and honors in recognition of his research excellence and academic contributions. One of his most notable achievements is receiving the Annual Research Publication Award in 2020, which highlights his significant contributions to high-impact journal publications. Additionally, he has been acknowledged for his outstanding research work by various professional organizations and academic institutions. He is a recipient of prestigious research grants, enabling him to carry out impactful studies in renewable energy and smart grid technologies. His contributions as a peer reviewer for reputed journals have also been recognized, further establishing his reputation as a dedicated and respected researcher. He has been invited as a guest speaker at international conferences, where he has shared his insights and findings with a global audience. Furthermore, his involvement in professional societies such as IEEE and other engineering organizations has provided him with opportunities to engage in collaborative research and industry partnerships. These accolades and honors underscore his commitment to advancing knowledge and innovation in electrical engineering and energy systems. His achievements serve as a testament to his hard work, expertise, and dedication to making meaningful contributions to his field.

Conclusion

Md Sanwar Hossain is a distinguished researcher and academic whose contributions to electrical engineering and renewable energy have significantly impacted the field. His extensive research output, strong educational background, and diverse professional experience highlight his expertise in energy systems, power electronics, and smart grids. His research interests in sustainable energy solutions and IoT applications have positioned him as a thought leader in emerging technologies. With a broad skill set encompassing experimental research, data analysis, and technical writing, he has made substantial contributions to both theoretical advancements and practical applications. His numerous awards and honors reflect his dedication to excellence and innovation. By actively engaging in collaborative research, mentoring students, and participating in international conferences, he continues to expand his influence in the academic and professional communities. As he progresses in his career, his focus remains on developing cutting-edge technologies that address global energy challenges. With his passion for research and commitment to sustainability, he is poised to make even greater contributions in the future. His work not only advances scientific knowledge but also plays a crucial role in shaping the future of energy systems worldwide.

Publications Top Notes

  1. Title: A smart IoT based system for monitoring and controlling the sub-station equipment
    Authors: MS Hossain, M Rahman, MT Sarker, ME Haque, A Jahid
    Year: 2019
    Citations: 102

  2. Title: Solar PV and Biomass Resources Based Sustainable Energy Supply for Off-Grid Cellular Base Stations
    Authors: MS Hossain, A Jahid, KZ Islam, MF Rahman
    Year: 2020
    Citations: 83

  3. Title: Numerical Development of High Performance Quasi D-Shape PCF-SPR Biosensor: An External Sensing Approach Employing Gold
    Authors: MB Hossain, MS Hossain, SMR Islam, MN Sakib, KZ Islam, MA Hossain, …
    Year: 2020
    Citations: 77

  4. Title: Toward energy efficiency aware renewable energy management in green cellular networks with joint coordination
    Authors: A Jahid, MS Islam, MS Hossain, ME Hossain, MKH Monju, MF Hossain
    Year: 2019
    Citations: 65

  5. Title: Techno-economic and energy efficiency analysis of optimal power supply solutions for green cellular base stations
    Authors: A Jahid, MS Hossain, MKH Monju, MF Rahman, MF Hossain
    Year: 2020
    Citations: 62

  6. Title: Comparative Study of IoT-Based Topology Maintenance Protocol in a Wireless Sensor Network for Structural Health Monitoring
    Authors: M Haque, M Asikuzzaman, IU Khan, IH Ra, MS Hossain, SBH Shah
    Year: 2020
    Citations: 62

  7. Title: Hybrid power supply solutions for off-grid green wireless networks
    Authors: A Jahid, KH Monju, MS Hossain, F Hossain
    Year: 2019
    Citations: 54

  8. Title: Hybrid Solar PV/Biomass Powered Energy Efficient Remote Cellular Base Station
    Authors: MS Hossain, MF Rahman
    Year: 2020
    Citations: 43

  9. Title: Towards Energy Efficient Load Balancing for Sustainable Green Wireless Networks under Optimal Power Supply
    Authors: MS Hossain, A Jahid, KZ Islam, MH Alsharif, KM Rahman, MF Rahman, …
    Year: 2020
    Citations: 38

  10. Title: Feasibility analysis of solar powered base stations for sustainable heterogeneous networks
    Authors: A Jahid, MS Hossain
    Year: 2017
    Citations: 37

  11. Title: Quantifying potential of hybrid PV/WT power supplies for off-grid LTE base station
    Authors: MS Hossain, A Jahid, F Rahman
    Year: 2018
    Citations: 36

Dan Yang | Chemical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Dan Yang | Chemical Engineering | Best Researcher Award

School of Chemistry and Molecular Engineering, Nanjing Tech University, China

Dan Yang is an accomplished associate professor at Nanjing Tech University, specializing in chemistry and molecular engineering. With a strong academic foundation and extensive research experience, she focuses on the synthesis of metal nanoclusters and their applications in photoelectrocatalysis and electrocatalysis. Her research aims to develop innovative solutions for CO2 reduction and biomass conversion, contributing to sustainable chemical processes. Throughout her career, she has made significant contributions to the field, authoring multiple high-impact publications in renowned scientific journals. Dan Yang has successfully secured competitive research grants, demonstrating her expertise in securing funding for cutting-edge projects. With her deep-rooted knowledge in physical chemistry and material science, she continues to make impactful strides in catalysis research, earning recognition and respect in her field.

Professional Profile

ORCID Profile

Education

Dan Yang has an extensive academic background in chemistry and material science. She earned her doctoral degree in physical chemistry from Nanjing University (2017–2020) under the supervision of Professors Weiping Ding and Yan Zhu. During her doctoral studies, she focused on the catalytic conversion of C1 molecules using metal clusters. Prior to this, she obtained a master’s degree in material science from Sun Yat-sen University (2012–2014), where she worked under Professor Yuezhong Meng, specializing in the development of advanced materials. Her educational journey began at Northwest Normal University, where she completed her bachelor’s degree in chemistry (2008–2012), building a strong foundation in chemical principles and laboratory techniques. This diverse and robust educational background has equipped Dan Yang with the expertise to conduct innovative research in electrocatalysis and sustainable chemical processes.

Professional Experience

Dan Yang’s professional career reflects her dedication to advancing chemical research. She is currently an associate professor at Nanjing Tech University (2023–present), where she leads research on metal nanocluster synthesis and their applications in photoelectrocatalysis and electrocatalysis of C1 molecules and biomass conversion. Prior to her current role, she served as a postdoctoral researcher at the same university (2021–2022), where she worked on electrocatalytic CO2 reduction reactions (CO2RR) and the conversion of biomass derivatives into valuable chemical products. From 2014 to 2016, she was an assistant research fellow at the Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences. There, she contributed to the development of fine chemicals, including phase-change materials, epoxide plasticizers, and bio-based polyols. Her diverse professional experience underscores her expertise in catalysis, sustainable chemical synthesis, and material science.

Research Interests

Dan Yang’s research interests revolve around catalysis and sustainable chemistry. She specializes in the synthesis of metal nanoclusters and their catalytic applications in photoelectrocatalysis and electrocatalysis. Her current focus includes CO2 reduction reactions (CO2RR) to produce carbon monoxide (CO) and formic acid (HCOOH), offering potential solutions for carbon capture and utilization. She also explores the electrocatalytic transformation of biomass-derived molecules, such as glycerol and glucose, into valuable carboxylic acid products. Additionally, her work investigates the evolution of metal-ligand interfaces in nanoclusters and their impact on catalytic performance. Through her research, Dan Yang aims to develop efficient and sustainable catalytic systems that address environmental challenges and promote green chemical processes.

Research Skills

Dan Yang possesses a diverse set of research skills in the fields of catalysis and material science. She is highly proficient in the synthesis and characterization of metal nanoclusters, utilizing techniques such as transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS), and nuclear magnetic resonance (NMR) to analyze cluster structures. Her expertise extends to electrochemical methods, including cyclic voltammetry and chronoamperometry, for evaluating catalytic performance. Additionally, she has experience in biomass conversion processes, utilizing electrocatalysis and photoelectrocatalysis techniques. Her analytical skills include advanced data interpretation and the use of computational tools for modeling catalytic reactions. Dan Yang’s technical proficiency enables her to design and optimize catalytic systems for efficient and selective chemical transformations.

Awards and Honors

Dan Yang has received several prestigious awards and research grants in recognition of her contributions to catalysis research. She was awarded the Young Scientists Fund of the National Natural Science Foundation of China (NSFC) for her project on the evolution of metal-ligand interfaces in gold clusters for CO2 reduction (2025–2027). She also leads a sub-project of the NSFC International Cooperation and Exchanges Program, focusing on new catalysts and materials for CO2 capture and conversion (2024–2026). Additionally, she secured funding from the Jiangsu Natural Science Foundation of China for her work on glycerol carbonate synthesis through electrochemical CO2 conversion (2023–2026). Dan Yang previously received support from the China Postdoctoral Science Foundation for her research on electrolyte-regulated CO2RR using gold clusters (2022–2023). These accolades highlight her innovative research and scientific impact.

Conclusion

Dan Yang is a distinguished researcher and associate professor with a profound expertise in catalysis, material science, and sustainable chemical processes. Her academic journey, spanning from physical chemistry to material science, has equipped her with the skills and knowledge to tackle complex challenges in CO2 reduction and biomass conversion. With a prolific publication record and multiple research grants, she continues to make significant contributions to the field. Her commitment to advancing sustainable catalytic processes reflects her dedication to addressing pressing environmental challenges. Through her innovative research, Dan Yang remains at the forefront of scientific discovery, driving advancements in electrocatalysis and green chemistry.

Publications Top Notes

  1. Metal-ligand interfaces for well-defined gold nanoclusters
    Authors: Yang, Dan; Wu, Yating; Yuan, Zhaotong; Zhou, Chunmei; Dai, Yihu; Wan, Xiaoyue; Zhu, Yan; Yang, Yanhui
    Journal: Science China Chemistry

  2. Atomically Precise Water-Soluble Gold Nanoclusters: Synthesis and Biomedical Application
    Authors: Yan, Qian; Yuan, Zhaotong; Wu, Yating; Zhou, Chunmei; Dai, Yihu; Wan, Xiaoyue; Yang, Dan; Liu, Xu; Xue, Nianhua; Zhu, Yan
    Journal: Precision Chemistry

  3. Direct dehydrogenation of propane over Co@silicalite-1 zeolite: Steaming-induced restructuring of Co2+ active sites
    Authors: Long, Jiangping; Tian, Suyang; Wei, Sheng; Lin, Hongqiao; Shi, Guiwen; Zong, Xupeng; Yang, Yanhui; Yang, Dan; Tang, Yu; Dai, Yihu
    Journal: Applied Surface Science

  4. Metal-carbonate interface promoted activity of Ag/MgCO3 catalyst for aqueous-phase formaldehyde reforming into hydrogen
    Authors: Wang, Qiaojuan; Wang, Jianyue; Rui, Wenjuan; Yang, Dan; Wan, Xiaoyue; Zhou, Chunmei; Li, Renhong; Liu, Wen; Dai, Yihu; Yang, Yanhui
    Journal: Fuel

  5. Nonoxidative propane dehydrogenation by isolated Co2+ in BEA zeolite: Dealumination-determined key steps of propane C-H activation and propylene desorption
    Authors: Wei, Sheng; Dai, Hua; Long, Jiangping; Lin, Hongqiao; Gu, Junkun; Zong, Xupeng; Yang, Dan; Tang, Yu; Yang, Yanhui; Dai, Yihu
    Journal: Chemical Engineering Journal

  6. Investigation into the coking-related key reaction steps in dry reforming of methane over NiMgOx catalyst
    Authors: Wang, Jianyue; Wang, Jiawei; Wei, Sheng; Zhang, Yiwen; Tian, Fuhou; Yang, Dan; Kustov, Leonid M.; Yang, Yanhui; Dai, Yihu
    Journal: Molecular Catalysis

  7. Ball-milling-induced phase transition of ZrO2 promotes selective oxidation of glycerol to dihydroxyacetone over supported PtBi bimetal catalyst
    Authors: Luo, Pan; Wang, Jianyue; Rui, Wenjuan; Xu, Ruilin; Kuai, Zhiyuan; Yang, Dan; Wan, Xiaoyue; Zhou, Chunmei; Yang, Yanhui; Dai, Yihu
    Journal: Chemical Engineering Journal

  8. Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters (vol 4, pg 66, 2022)
    Authors: Not listed
    Journal: CCS Chemistry

  9. Non-oxidative propane dehydrogenation over Co/Ti-ZSM-5 catalysts: Ti species-tuned Co state and surface acidity
    Authors: Wu, Yueqi; Long, Jiangping; Wei, Sheng; Gao, Yating; Yang, Dan; Dai, Yihu; Yang, Yanhui
    Journal: Microporous and Mesoporous Materials

  10. On the effect of zeolite acid property and reaction pathway in Pd-catalyzed hydrogenation of furfural to cyclopentanone
    Authors: Gao, Xing; Ding, Yingying; Peng, Lilin; Yang, Dan; Wan, Xiaoyue; Zhou, Chunmei; Liu, Wen; Dai, Yihu; Yang, Yanhui
    Journal: Fuel

  11. Research Progress in Electrocatalytic CO2 Reduction Reaction over Gold Clusters
    Authors: Yang, Dan; Liu, Xu; Dai, Yihu; Zhu, Yan; Yang, Yanhui
    Journal: Chemical Journal of Chinese Universities

  12. Electrocatalytic CO2 Reduction over Atomically Precise Metal Nanoclusters Protected by Organic Ligands
    Authors: Yang, Dan; Wang, Jiawei; Wang, Qiaojuan; Yuan, Zhaotong; Dai, Yihu; Zhou, Chunmei; Wan, Xiaoyue; Zhang, Qichun; Yang, Yanhui
    Journal: ACS Nano

  13. Chemoselective Oxidation of Glycerol over Platinum‐Based Catalysts: Toward the Role of Oxide Promoter
    Authors: Not listed
    Journal: ChemCatChem

  14. Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters
    Authors: Not listed
    Journal: CCS Chemistry

  15. Distinct chemical fixation of CO2 enabled by exotic gold nanoclusters
    Authors: Yang, Dan; Song, Yu; Yang, Fang; Sun, Yongnan; Li, Shuohao; Liu, Xu; Zhu, Yan; Yang, Yanhui
    Journal: The Journal of Chemical Physics

  16. A survey of recent progress on novel catalytic materials with precise crystalline structures for oxidation/hydrogenation of key biomass platform chemicals
    Authors: Not listed
    Journal: EcoMat

  17. Selective CO2 conversion tuned by periodicities in Au8n+4(TBBT)4n+8 nanoclusters
    Authors: Not listed
    Journal: Nano Research

  18. Evolution of catalytic activity driven by structural fusion of icosahedral gold cluster cores
    Authors: Not listed
    Journal: Chinese Journal of Catalysis

  19. Ligand-protected Au4Ru2 and Au5Ru2 nanoclusters: distinct structures and implications for site-cooperation catalysis
    Authors: Not listed
    Journal: Chemical Communications

  20. Structural Relaxation Enabled by Internal Vacancy Available in a 24-Atom Gold Cluster Reinforces Catalytic Reactivity
    Authors: Not listed
    Journal: Journal of the American Chemical Society

  21. Controllable Conversion of CO2 on Non‐Metallic Gold Clusters
    Authors: Not listed
    Journal: Angewandte Chemie International Edition

  22. Sequence isomerism-dependent self-assembly of glycopeptide mimetics with switchable antibiofilm properties
    Authors: Chen, Limin; Feng, Jie; Yang, Dan; Tian, Falin; Ye, Xiaomin; Qian, Qiuping; Wei, Shuai; Zhou, Yunlong
    Journal: Chemical Science

  23. Switchable modulation of bacterial growth and biofilm formation based on supramolecular tripeptide amphiphiles
    Authors: Chen, Limin; Yang, Dan; Feng, Jie; Zhang, Min; Qian, Qiuping; Zhou, Yunlong
    Journal: Journal of Materials Chemistry B

  24. The Evolution in Catalytic Activity Driven by Periodic Transformation in the Inner Sites of Gold Clusters
    Authors: Sun, Yongnan; Wang, Endong; Ren, Yujing; Xiao, Kang; Liu, Xu; Yang, Dan; Gao, Yi; Ding, Weiping; Zhu, Yan
    Journal: Advanced Functional Materials

Yunfeng Peng | Environmental Science | Best Researcher Award

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Prof. Yunfeng Peng | Environmental Science | Best Researcher Award

Professor at Institute of Botany, Chinese Academy of Sciences, China

Prof. Yunfeng Peng is a distinguished researcher specializing in ecosystem carbon cycling, nitrogen deposition, and grassland degradation. He is a full professor at the Institute of Botany, Chinese Academy of Sciences, with extensive experience in conducting large-scale field surveys, manipulative experiments, and meta-analyses. His research provides critical insights into the effects of climate change and human activities on carbon and nitrogen dynamics in terrestrial ecosystems. Prof. Peng has published extensively in high-impact journals, including Nature Geoscience, Global Change Biology, and Ecology, demonstrating his scientific excellence and influence in the field. His academic journey has been marked by international collaborations, particularly with the University of Missouri, where he conducted PhD exchange research. Over the years, he has made significant contributions to understanding soil carbon fluxes, nitrogen saturation, and the impact of global change on ecosystem processes. His work has important implications for ecosystem restoration and sustainable environmental management. Prof. Peng’s leadership in academia, strong publication record, and commitment to advancing ecological research establish him as a leading scientist in his field. His research is crucial for developing strategies to mitigate climate change effects and enhance ecosystem resilience in response to global environmental challenges.

Professional Profile

Education

Prof. Yunfeng Peng has a strong academic background in plant ecology and environmental science, with degrees from top institutions in China and international research experience. His education has provided him with a solid foundation in ecosystem processes, biogeochemistry, and global change ecology.

  • Ph.D. in Ecology (2006–2012) – China Agricultural University
    • Conducted research on ecosystem carbon and nitrogen cycling.
  • Ph.D. Exchange Program (2010–2012) – University of Missouri, Columbia, USA
    • Specialized in ecosystem nutrient dynamics and plant-soil interactions.
  • Bachelor’s Degree in Ecology (2002–2006) – Agricultural University of Hebei
    • Focused on plant physiology, soil science, and ecosystem processes.

Throughout his academic journey, Prof. Peng has gained expertise in experimental design, data analysis, and environmental modeling, which have shaped his research contributions. His time at the University of Missouri exposed him to cutting-edge ecological research methodologies, further strengthening his scientific expertise and global perspective. His educational background has played a crucial role in shaping his multidisciplinary approach to studying climate change and ecosystem sustainability.

Professional Experience

Prof. Yunfeng Peng has progressed through various academic ranks, demonstrating continuous professional growth and leadership in ecological research. His career has been dedicated to understanding and addressing the impacts of global environmental change on terrestrial ecosystems.

  • Full Professor (2024–Present) – Institute of Botany, Chinese Academy of Sciences
    • Leads research on carbon and nitrogen dynamics in changing climates.
  • Associate Professor (2018–2024) – Institute of Botany, Chinese Academy of Sciences
    • Conducted high-impact research on soil respiration, nitrogen enrichment, and permafrost carbon fluxes.
  • Assistant Professor (2015–2018) – Institute of Botany, Chinese Academy of Sciences
    • Focused on experimental warming effects and nitrogen deposition in alpine ecosystems.
  • Postdoctoral Researcher (2013–2015) – Institute of Botany, Chinese Academy of Sciences
    • Investigated ecosystem productivity responses to global climate change.

Prof. Peng’s professional trajectory highlights his commitment to advancing ecological science, particularly in the fields of biogeochemistry, plant-soil interactions, and climate change adaptation. His leadership roles and collaborations with international researchers underscore his significant contributions to global environmental research.

Research Interests

Prof. Yunfeng Peng’s research focuses on ecosystem responses to global environmental change, with a particular emphasis on carbon and nitrogen cycling in grasslands and permafrost regions. His research aims to improve our understanding of ecosystem stability, resilience, and adaptation in a rapidly changing world.

His primary research interests include:

  1. Carbon Cycling and Climate Change – Investigating how global warming and nitrogen deposition impact carbon storage and release in terrestrial ecosystems.
  2. Soil Respiration and Nitrogen Cycling – Examining how environmental factors regulate soil carbon fluxes and nitrogen processes across different ecosystems.
  3. Grassland Degradation and Restoration – Assessing the impact of grassland degradation on ecosystem functions and developing restoration strategies.
  4. Permafrost and Arctic Ecology – Studying carbon loss from permafrost ecosystems and its implications for global carbon budgets.
  5. Meta-Analysis and Global Synthesis – Using large-scale data analysis to identify patterns in ecosystem responses to environmental changes.

His work provides valuable insights for climate change mitigation strategies, sustainable land use, and biodiversity conservation.

Research Skills

Prof. Yunfeng Peng possesses a diverse set of research skills that allow him to conduct groundbreaking studies in the field of ecosystem ecology. His expertise spans fieldwork, experimental design, data analysis, and scientific communication.

  1. Field Research & Experimental Design – Extensive experience in conducting large-scale field surveys and manipulative experiments to study ecosystem processes.
  2. Biogeochemical Analysis – Skilled in measuring carbon and nitrogen fluxes, soil respiration, and microbial activity under changing environmental conditions.
  3. Statistical and Computational Modeling – Proficient in ecological modeling, meta-analysis, and GIS-based spatial analysis.
  4. Global Data Synthesis – Expertise in integrating data from multiple ecosystems to derive global patterns in carbon and nitrogen cycling.
  5. Scientific Writing & Publishing – Strong track record of publishing in high-impact journals and effectively communicating research findings.
  6. Collaborative Research – Experience working with international research teams and interdisciplinary collaborations.

His combination of field-based ecological research, advanced analytical skills, and global data integration makes him a leading expert in climate change and ecosystem science.

Awards and Honors

Prof. Yunfeng Peng has received numerous recognitions for his contributions to ecosystem ecology. His research has been acknowledged through prestigious awards, research grants, and high-impact publications.

Some of his key awards and honors include:

  1. Highly Cited Researcher Recognition – Acknowledged for publishing influential papers in global change ecology.
  2. Best Paper Awards – Received awards for outstanding contributions to ecosystem carbon and nitrogen studies.
  3. Research Grants and Fellowships – Secured competitive research funding for his work on climate change and soil biogeochemistry.
  4. Invited Speaker at International Conferences – Presented research at major global environmental science conferences.
  5. Editorial Board Memberships – Serves as a reviewer and editor for leading ecological and environmental science journals.

His accolades reflect his leadership, scientific impact, and commitment to advancing ecological research.

Conclusion

Prof. Yunfeng Peng is a highly accomplished researcher whose work has significantly advanced our understanding of carbon and nitrogen dynamics in terrestrial ecosystems. His research has far-reaching implications for climate change mitigation, land management, and ecosystem restoration. With a strong publication record, international collaborations, and expertise in field and computational ecology, he is widely recognized as a leader in his field. His commitment to scientific excellence, interdisciplinary collaboration, and global environmental sustainability makes him a key figure in ecosystem research. Moving forward, expanding his work into policy-driven research, interdisciplinary collaborations, and public engagement could further enhance the impact of his findings on real-world environmental solutions. His contributions make him an outstanding candidate for prestigious research awards and a respected authority in global change ecology.

Publications Top Notes

  • Title: Heating up the roof of the world: tracing the impacts of in-situ warming on carbon cycle in alpine grasslands on the Tibetan Plateau
    Authors: Y. Bai Yuxuan, Y. Peng Yunfeng, D. Zhang Dianye, Y. Xie Yuhong, Y. Yang Yuanhe
    Year: 2025
    Citations: 1

  • Title: Metagenomic insights into microbial community structure and metabolism in alpine permafrost on the Tibetan Plateau
    Authors: L. Kang Luyao, Y. Song Yutong, R. MacKelprang Rachel, Y. Peng Yunfeng, Y. Yang Yuanhe
    Year: 2024
    Citations: 13

  • Title: Enhanced response of soil respiration to experimental warming upon thermokarst formation
    Authors: G. Wang Guanqin, Y. Peng Yunfeng, L. Chen Leiyi, D. Zhang Dianye, Y. Yang Yuanhe
    Year: 2024
    Citations: 9

  • Title: Responses of soil bacterial functional group diversity to nitrogen enrichment in global grasslands
    Authors: Y. Liu Yang, Y. Peng Yunfeng, Y. Bai Yuxuan, M. Men Mingxin, Z. Peng Zhengping
    Year: 2024
    Citations: 3

  • Title: Widespread cooling of topsoil under nitrogen enrichment and implication for soil carbon flux
    Authors: L. Zhou Lina, Y. Liu Yang, M. Men Mingxin, Z. Peng Zhengping, Y. Peng Yunfeng
    Year: 2024

  • Title: Experimental warming altered plant functional traits and their coordination in a permafrost ecosystem
    Authors: B. Wei Bin, D. Zhang Dianye, G. Wang Guanqin, K. Niu Kechang, Y. Yang Yuanhe
    Year: 2023
    Citations: 26

  • Title: Characteristics of methane emissions from alpine thermokarst lakes on the Tibetan Plateau
    Authors: G. Yang Guibiao, Z. Zheng Zhihu, B.W. Abbott Benjamin W., Y. Peng Yunfeng, Y. Yang Yuanhe
    Year: 2023

 

Stephen Afrifa | Climate Action | Best Researcher Award

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Mr. Stephen Afrifa | Climate Action | Best Researcher Award

Researcher at University of Energy and Natural Resources, Ghana

Dr. Stephen Afrifa is a dedicated scientific researcher with a passion for innovation, climate science, and technology-driven solutions. With extensive experience in artificial intelligence, machine learning, data science, and geospatial techniques, he applies computational methods to address pressing global challenges, including climate change, public health, and cybersecurity. As a lecturer at the University of Energy and Natural Resources (UENR), he mentors students while leading cutting-edge research initiatives. Dr. Afrifa is also actively engaged in software development, project management, and academic publishing. His strong analytical skills, problem-solving abilities, and leadership in research make him a key figure in advancing knowledge in his field. He has contributed significantly to academia through numerous peer-reviewed publications, conference presentations, and collaborations with international researchers. His commitment to climate activism and educational outreach highlights his dedication to using technology for societal good.

Professional Profile

Education

Dr. Afrifa is currently pursuing a Ph.D. in Information and Communication Engineering at Tianjin University, China, with a focus on speech enhancement, deep learning, and signal processing. He holds a Master of Science in Engineering (Information and Communication Engineering) from the same institution, where he explored machine learning models for climate change analysis. He earned his Bachelor of Science in Information Technology (First Class Honors) from the University of Energy and Natural Resources (UENR), Ghana. His academic foundation is further strengthened by a background in the sciences from Kumasi High School, where he studied Biology, Chemistry, Physics, and Mathematics. Throughout his education, Dr. Afrifa has demonstrated excellence in research, earning prestigious scholarships and academic awards.

Professional Experience

Dr. Afrifa has held various roles in academia and industry. Currently, he is a lecturer at UENR’s Department of Information Technology and Decision Sciences, where he teaches, supervises research, and contributes to faculty projects. Previously, he worked as a senior research assistant in the same department, assisting in student supervision, research design, and data analysis. He has also served as a software application developer and research lead at CY Technologies, where he designed and developed software solutions while leading research initiatives. His experience includes roles in IT support, national service, and research internships, where he contributed to innovative projects such as fire detection systems and AI-driven business solutions. His multidisciplinary expertise spans IT, machine learning, geospatial analysis, and cybersecurity.

Research Interests

Dr. Afrifa’s research focuses on artificial intelligence, machine learning, data science, geospatial analysis, and climate change modeling. He is particularly interested in applying deep learning techniques to areas such as medical imaging, speech recognition, cybersecurity, and environmental monitoring. His work explores the intersection of AI and sustainability, using computational models to assess climate change impacts on groundwater levels and natural disasters. Additionally, he has contributed to studies on public sentiment analysis, network security, and disease detection using AI-driven techniques. His diverse research interests reflect a commitment to leveraging technology for problem-solving and innovation.

Research Skills

Dr. Afrifa is proficient in various programming languages, including Python, R, C/C++, Java, HTML5, JavaScript, and PHP. He has expertise in statistical and AI-based tools such as SPSS, NVIVO, GIS, and GenStat. His skills extend to network security, data analysis, cloud computing, and enterprise resource planning (ERP) systems. He is adept at designing and implementing AI models for predictive analytics, classification, and decision-making. His experience in mentoring students, leading research teams, and publishing in high-impact journals further solidifies his reputation as a skilled researcher. Additionally, his ability to integrate AI, machine learning, and geospatial techniques in real-world applications makes him a valuable contributor to the scientific community.

Awards and Honors

Dr. Afrifa has been recognized for his academic and research excellence. He was awarded the Best Graduating Student in the Department of Computer Science and Informatics at UENR in 2020. He was also a recipient of the Absa Tertiary Scholarship from 2017 to 2020. His research contributions have led to invitations as a peer reviewer for several reputable journals, including those published by Elsevier, Springer, and Emerald. His work has been presented at international conferences, further solidifying his status as a thought leader in his field. His achievements underscore his dedication to advancing knowledge and innovation through rigorous scientific inquiry.

Conclusion

Dr. Stephen Afrifa’s impressive academic and professional journey demonstrates his commitment to research, innovation, and education. His expertise in artificial intelligence, machine learning, climate science, and cybersecurity enables him to address complex global challenges through technology. As a researcher, educator, and mentor, he continues to inspire students and collaborate with international scholars to push the boundaries of scientific discovery. His numerous publications, leadership roles, and industry experience position him as a strong candidate for the Best Researcher Award. His dedication to research excellence, combined with his problem-solving skills and contributions to knowledge, make him a deserving recipient of this recognition.

Publications Top Notes

  1. Mathematical and machine learning models for groundwater level changes: a systematic review and bibliographic analysis

    • Authors: S Afrifa, T Zhang, P Appiahene, V Varadarajan
    • Year: 2022
    • Citations: 62

  2. Detection of anemia using conjunctiva images: A smartphone application approach

    • Authors: P Appiahene, EJ Arthur, S Korankye, S Afrifa, JW Asare, ET Donkoh
    • Year: 2023
    • Citations: 32

  3. Ensemble machine learning techniques for accurate and efficient detection of botnet attacks in connected computers

    • Authors: S Afrifa, V Varadarajan, P Appiahene, T Zhang, EA Domfeh
    • Year: 2023
    • Citations: 31

  4. VAR, ARIMAX and ARIMA models for nowcasting unemployment rate in Ghana using Google trends

    • Authors: WK Adu, P Appiahene, S Afrifa
    • Year: 2023
    • Citations: 26

  5. Cyberbullying detection on Twitter using natural language processing and machine learning techniques

    • Authors: S Afrifa, V Varadarajan
    • Year: 2022
    • Citations: 21

  6. Application of ensemble models approach in anemia detection using images of the palpable palm

    • Authors: P Appiahene, SSD Dogbe, EEY Kobina, PS Dartey, S Afrifa, ET Donkoh, …
    • Year: 2023
    • Citations: 13

  7. Analyzing sentiments towards e-levy policy implementation in Ghana using Twitter data

    • Authors: P Appiahene, S Afrifa, EK Akwah, A Choudhry, I Khatri, C Raj, M Prasad
    • Year: 2024
    • Citations: 10

  8. Climate change impact assessment on groundwater level changes: A study of hybrid model techniques

    • Authors: S Afrifa, T Zhang, X Zhao, P Appiahene, MS Yaw
    • Year: 2023
    • Citations: 8

  9. Using Machine Learning to Classify Network Abnormalities into Legitimate or Assault in IoT-based Cyber Physical System

    • Authors: S Afrifa, V Varadarajan, P Appiahene, T Zhang
    • Year: 2023
    • Citations: 5

  10. Experiences of sexual minorities on social media: A study of sentiment analysis and machine learning approaches

  • Authors: P Appiahene, V Varadarajan, T Zhang, S Afrifa
  • Year: 2023
  • Citations: 5

Yuxiang Zhang | Power Devices | Best Researcher Award

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Mr. Yuxiang Zhang | Power Devices | Best Researcher Award

Key Laboratory of Nanodevices and Applications, Suzhou Institute of Nano-tech and Nano-bionics, China

Mr. Yuxiang Zhang is a dedicated researcher specializing in GaN-based power semiconductor devices, with expertise in fabrication technology, electrical characterization, and device optimization. His research primarily focuses on AlGaN/GaN heterojunctions and P-GaN HEMTs, where he has developed innovative low-damage etching processes, metal-free ohmic contacts, and self-aligned gate etching techniques. Currently, he is working at the Suzhou Institute of Nano-Tech and Nano-Bionics (SINANO), Chinese Academy of Sciences, contributing to advanced semiconductor processing and reliability improvements. With a strong technical background in semiconductor manufacturing, electrical testing, and simulation, he has accumulated extensive hands-on experience in cleanroom environments. Beyond technical expertise, he has demonstrated leadership skills through student roles and has received multiple awards for academic excellence. His commitment to innovation, problem-solving, and collaboration makes him a strong candidate for research awards. He aims to advance semiconductor technology by bridging theoretical research with practical applications in power electronics, RF devices, and energy-efficient semiconductor solutions.

Professional Profile

Education

Mr. Yuxiang Zhang holds a Master’s Degree in Electronic Information from Hangzhou Dianzi University, where he specializes in power semiconductor devices and fabrication technologies. He began his academic journey with a Bachelor’s Degree in IoT Engineering from Jiangsu University of Technology, focusing on semiconductor physics, circuit design, and microelectronics. His educational background has provided him with a strong foundation in semiconductor manufacturing, electrical characterization, and device reliability assessment. During his studies, he has conducted cutting-edge research on AlGaN/GaN heterojunctions, P-GaN HEMTs, and advanced etching processes, enhancing his expertise in fabrication and process optimization. In addition to his research, he has actively engaged in academic leadership roles, demonstrating teamwork, communication, and problem-solving skills. His education has shaped him into a highly skilled researcher with both theoretical knowledge and practical experience, preparing him for a promising career in semiconductor technology and power electronics.

Professional Experience

Mr. Yuxiang Zhang has accumulated extensive research and industry experience in semiconductor fabrication and device characterization. Since August 2023, he has been working as a researcher at the Suzhou Institute of Nano-Tech and Nano-Bionics (SINANO), Chinese Academy of Sciences, where he develops low-damage etching techniques, self-aligned gate-first etching processes, and reliability optimization methods for GaN-based power devices. Before joining SINANO, he conducted research at Hangzhou Dianzi University, focusing on P-GaN HEMTs reliability, plasma treatment techniques, and gate structure enhancements. His hands-on experience includes photolithography, etching, ion implantation, thin-film deposition, and electrical characterization, making him highly proficient in semiconductor processing. He also worked as an intern at Jiangsu University of Technology’s Semiconductor Fabrication Lab, where he gained expertise in material analysis, device testing, and failure analysis. His professional background reflects a strong technical foundation, research innovation, and practical problem-solving abilities, positioning him as a rising expert in semiconductor technology.

Research Interests

Mr. Yuxiang Zhang’s research interests focus on GaN-based semiconductor devices and advanced fabrication technologies. His primary area of expertise lies in AlGaN/GaN heterojunction power devices, where he explores low-damage etching techniques, metal-free ohmic contact formation, and self-aligned gate-first etching processes to improve device efficiency and reliability. He is also deeply involved in P-GaN HEMTs research, investigating plasma treatment methods, gate reliability improvements, and threshold voltage stability enhancements. Additionally, he has a strong interest in semiconductor processing innovations, including dry etching, wet etching, and plasma-assisted treatments. His research also extends to device simulation and modeling, utilizing TCAD tools to analyze device behavior, failure mechanisms, and performance optimization strategies. By integrating theoretical knowledge with practical applications, he aims to contribute to the development of next-generation power electronics and RF semiconductor devices that offer higher efficiency, lower power loss, and improved reliability.

Research Skills

Mr. Yuxiang Zhang possesses a diverse and advanced set of research skills in semiconductor technology, device fabrication, and electrical characterization. His expertise includes photolithography, ion implantation, thin-film deposition, dry and wet etching, and plasma-assisted processing, making him highly proficient in fabrication techniques. In device characterization and testing, he has experience with static I-V and C-V measurements, gate reliability testing, time-dependent failure analysis (TTF, FPE), and leakage current assessments, enabling him to analyze device performance and reliability effectively. He is also skilled in semiconductor simulation and modeling, utilizing L-Edit and TCAD simulations to study device behavior and optimize fabrication processes. Furthermore, he has extensive knowledge in advanced material analysis techniques, including SEM, XRD, AFM, SIMS, FIB, and EDS, allowing for precise structural and compositional analysis of semiconductor materials. His strong problem-solving abilities, technical innovation, and hands-on experience in semiconductor research make him a highly capable researcher in the field of power electronics.

Awards and Honors

Mr. Yuxiang Zhang has been recognized for his outstanding academic performance and research contributions in semiconductor technology. He has received multiple academic scholarships for excellence in semiconductor research and coursework, demonstrating his strong theoretical knowledge and technical expertise. He was awarded the Outstanding Researcher Award at Hangzhou Dianzi University for his significant contributions to GaN-based power devices. Additionally, he has been recognized for his excellence in semiconductor fabrication at SINANO, where he played a key role in developing self-aligned etching techniques and reliability optimization processes. He has also received leadership recognition for his active participation in student organizations, highlighting his teamwork, communication, and organizational skills. His dedication to advancing semiconductor technology and power electronics has earned him a reputation as a highly skilled and innovative researcher, making him a strong contender for prestigious research awards.

Conclusion

Mr. Yuxiang Zhang is a highly skilled and innovative researcher specializing in GaN-based semiconductor devices and advanced fabrication technologies. His expertise in low-damage etching, metal-free ohmic contacts, and self-aligned gate-first etching has contributed to significant advancements in power semiconductor devices. With extensive hands-on experience in cleanroom fabrication, electrical characterization, and device optimization, he has demonstrated strong technical capabilities and research excellence. His ability to integrate theoretical research with practical applications makes him a valuable asset in the field of power electronics and semiconductor technology. Beyond his technical expertise, he has showcased leadership, teamwork, and problem-solving abilities, making him a well-rounded researcher. Moving forward, his focus on high-impact publications, interdisciplinary collaborations, and technology commercialization will further establish him as a leading expert in semiconductor research. His dedication to innovation, efficiency, and reliability improvements positions him as a worthy candidate for the Best Researcher Award, with the potential to make groundbreaking contributions to next-generation semiconductor technology.

 

Xi Lu | Energy | Best Scholar Award

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Prof. Xi Lu | Energy | Best Scholar Award

Director at Tsinghua University, China

Professor Xi Lu is a distinguished scholar specializing in renewable energy systems, carbon neutrality, and environmental systems modeling. With an academic foundation from Harvard University, he has established himself as a leading figure in the field of sustainable energy. His research combines engineering principles with advanced computational modeling to address pressing global challenges such as energy transition, climate change mitigation, and renewable energy optimization. Professor Lu’s work has had a profound impact on shaping energy policies and advancing innovative solutions for clean energy deployment. His interdisciplinary approach integrates technological, environmental, and economic dimensions, making his research invaluable for policy-makers and industry leaders. With a prolific publication record in prestigious journals and multiple national awards, Professor Lu continues to push the boundaries of knowledge and influence global energy strategies.

Professional Profile

Education

Professor Xi Lu holds a Doctor of Philosophy (PhD) in Engineering Science from Harvard University, awarded in 2010. His doctoral research focused on the integration of renewable energy sources and the development of large-scale energy systems models. He also earned a Master of Science in Applied Mathematics from Harvard University, which provided him with a robust analytical foundation to address complex energy and environmental challenges. Prior to his graduate studies, Professor Lu completed his Bachelor of Science degree in Environmental Science at Tsinghua University. His interdisciplinary academic background, combining engineering, mathematics, and environmental science, has equipped him with a unique skill set to tackle multifaceted problems in energy systems and sustainability.

Professional Experience

Professor Xi Lu currently serves as a full professor at Tsinghua University, where he leads advanced research in renewable energy systems, carbon mitigation strategies, and environmental policy modeling. Prior to this role, he held a research fellowship at Harvard University, where he contributed to groundbreaking studies on renewable energy integration and grid stability. Professor Lu has also collaborated with international organizations and government agencies, providing data-driven insights for shaping renewable energy policies. His professional career spans over two decades, during which he has led interdisciplinary research projects, supervised doctoral candidates, and facilitated industry-academic partnerships. His expertise is sought after globally, and he frequently participates in high-level discussions on energy policy and sustainable development.

Research Interests

Professor Xi Lu’s research interests revolve around renewable energy systems, carbon neutrality, and environmental systems modeling. He is particularly focused on developing advanced computational models to evaluate and optimize the performance of large-scale renewable energy infrastructures. His work addresses key issues such as integrating renewable energy into national grids, enhancing energy efficiency, and reducing greenhouse gas emissions. Additionally, Professor Lu is interested in policy-oriented research that provides practical solutions to achieve sustainable energy transitions. He explores the intersection of technology, economics, and policy to inform and guide global energy strategies. His interdisciplinary approach allows him to tackle complex problems and develop innovative methodologies to assess environmental and economic trade-offs in energy systems.

Research Skills

Professor Xi Lu possesses a diverse set of research skills that encompass advanced computational modeling, quantitative analysis, and large-scale energy system simulations. He is proficient in developing and applying optimization algorithms to assess renewable energy integration and grid stability. His expertise extends to geospatial analysis, which he uses to evaluate the spatial distribution and potential of renewable energy resources. Additionally, Professor Lu is skilled in policy modeling and the use of statistical methods to analyze the economic and environmental impacts of energy systems. His ability to integrate engineering techniques with environmental science and applied mathematics allows him to develop comprehensive models that inform both academic research and practical policy decisions.

Awards and Honors

Throughout his career, Professor Xi Lu has received numerous prestigious awards and honors recognizing his contributions to renewable energy research and environmental sustainability. In 2020, he was awarded the National Science Fund for Distinguished Young Scholars, a testament to his innovative research and academic excellence. He also received the Youth Scientist Gold Award from the Chinese Society for Environmental Sciences. His achievements have been further recognized through the 15th China Youth Science and Technology Award. These accolades highlight Professor Lu’s significant impact on advancing renewable energy technologies and shaping energy policies. His research has also earned international acclaim, with several of his publications featured as cover articles in top-tier journals like Nature Energy and Science.

Conclusion

Professor Xi Lu stands out as a leading expert in renewable energy systems and environmental policy modeling. His groundbreaking research has advanced the understanding of renewable energy integration and informed sustainable energy policies worldwide. With a strong academic foundation, extensive professional experience, and an impressive track record of high-impact publications, Professor Lu continues to drive innovation and provide actionable solutions for global energy challenges. His work not only addresses current issues in energy sustainability but also paves the way for future advancements in carbon neutrality and renewable technology. Professor Lu’s interdisciplinary expertise, combined with his commitment to scientific excellence, makes him a deserving candidate for the Best Scholar Award in Research. His contributions are instrumental in shaping a sustainable and energy-secure future on a global scale.

Publication Top Notes

  1. The risk-based environmental footprints and sustainability deficits of nations

    • Authors: J. He, Jianjian; P. Zhang, Pengyan; X. Lu, Xi
    • Year: 2025

  2. High-resolution gridded dataset of China’s offshore wind potential and costs under technical change

    • Authors: K. An, Kangxin; W. Cai, Wenjia; X. Lu, Xi; C. Wang, Can
    • Year: 2025

  3. Unraveling climate change-induced compound low-solar-low-wind extremes in China

    • Authors: L. Wang, Licheng; Y. Liu, Yawen; L. Zhao, Lei; T. Zhu, Tong; Y. Qin, Yue
    • Year: 2025

  4. Global disparity in synergy of solar power and vegetation growth

    • Authors: S. Chen, Shi; Y. Wang, Yuhan; X. Lu, Xi; K. He, Kebin; J. Hao, Jiming
    • Year: 2025

  5. Evaluating global progress towards Sustainable Development Goal 7 over space and time by a more comprehensive energy sustainability index

    • Authors: Q. Zhao, Qi; X. Lu, Xi; R. Marie Fleming, Rachael
    • Year: 2025

  6. The 2023 report of the synergetic roadmap on carbon neutrality and clean air for China: Carbon reduction, pollution mitigation, greening, and growth

    • Authors: J. Gong, Jicheng; Z. Yin, Zhicong; Y. Lei, Yu; J. Wang, Jinnan; K. He, Kebin
    • Year: 2025

  7. The future of coal-fired power plants in China to retrofit with biomass and CCS: A plant-centered assessment framework considering land competition

    • Authors: Y. Sun, Yunqi; A. Deng, An; Q. Yang, Qing; H. Yang, Haiping; H. Chen, Hanping
    • Year: 2025
    • Citations: 1

  8. Assessing the synergies of flexibly-operated carbon capture power plants with variable renewable energy in large-scale power systems

    • Authors: J. Li, Jiacong; C. Zhang, Chongyu; M.R. Davidson, Michael R.; X. Lu, Xi
    • Year: 2025
    • Citations: 1

  9. Synergies of variable renewable energy and electric vehicle battery swapping stations: Case study for Beijing

    • Authors: C. Zhang, Chongyu; X. Lu, Xi; S. Chen, Shi; A.M. Foley, Aoife M.; K. He, Kebin
    • Year: 2024
    • Citations: 1

  10. Correction to: Assessing global drinking water potential from electricity-free solar water evaporation device

  • Authors: W. Zhang, Wei; Y. Chen, Yongzhe; Q. Ji, Qinghua; H. Liu, Huijuan; J. Qu, Jiuhui
  • Year: 2024

Kiros Getachew Belachew | Environmental Science | Best Researcher Award

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Assist. Prof. Dr. Kiros Getachew Belachew | Environmental Science | Best Researcher Award

Assistance Professor at Debre Markos University College of Agriculture and Natural Resource, Ethiopia

Dr. Kiros Getachew Belachew is an accomplished academic and researcher specializing in forestry, environmental science, and natural resource management. With over two decades of professional experience, he has contributed significantly to teaching, research, and sustainable agricultural practices in Ethiopia. His extensive work focuses on soil quality improvement, agroforestry systems, and environmental conservation, which has been published in various peer-reviewed journals. A dedicated educator and mentor, Dr. Kiros has shaped the academic journeys of many students through his teaching and postgraduate guidance at Debre Markos University. His expertise, passion for environmental sustainability, and notable academic contributions make him a leader in his field.

Professional Profile

Education

Dr. Kiros holds a Ph.D. in Environmental Science from the University of South Africa (2017), where his dissertation investigated the nutrient release and decomposition of indigenous tree species to improve soil quality. He earned his Master of Science in Tropical Forestry and Management from the Technical University of Dresden, Germany (2005), focusing on nutrient dynamics in forestry. His academic foundation was built at Alemaya University, Ethiopia, where he obtained a Bachelor of Science in Forestry (1997). These qualifications underscore his deep expertise in forestry and environmental sciences, equipping him to address critical ecological challenges in Ethiopia and beyond.

Professional Experience

Currently serving as a lecturer in the postgraduate program at Debre Markos University, Dr. Kiros has been a pivotal figure in teaching forestry and environmental science since 2017. Before this role, he worked as an instructor at the same university, focusing on undergraduate education from 2005 to 2017. Earlier in his career, he served as a Soil and Water Conservation Expert for the Commission for Sustainable Agriculture and Environmental Rehabilitation in Ethiopia from 1997 to 2002. These roles reflect his commitment to education, research, and environmental conservation, demonstrating his ability to bridge academic knowledge with practical applications.

Research Interests

Dr. Kiros’s research interests lie in agroforestry systems, soil quality enhancement, nutrient recycling, and environmental sustainability. His work emphasizes the use of indigenous tree species for nutrient release and soil improvement in agricultural landscapes. He is particularly interested in the socioeconomic and ecological impacts of plantation forestry, sustainable land use practices, and alternative energy production, such as biogas and biofertilizers. His contributions aim to integrate scientific innovation with local environmental challenges to foster sustainable development in Ethiopia.

Research Skills

Dr. Kiros is adept at designing and conducting field-based studies, particularly in agroforestry systems and nutrient dynamics. He has expertise in quantitative and qualitative research methods, data analysis, and interpretation. He is proficient in assessing environmental and agricultural impacts using ecological indicators and has a strong publication record in forestry and environmental journals. His ability to engage in interdisciplinary research and collaborate with stakeholders reflects his commitment to advancing sustainable solutions for environmental challenges.

Awards and Honors

Throughout his career, Dr. Kiros has been recognized for his contributions to environmental research and education. His published works have earned citations in renowned journals, highlighting their impact in the field. While specific awards are not mentioned in his CV, his recognition as an expert in his domain is evident through his leadership roles in teaching and research at Debre Markos University. His academic achievements and continued dedication to sustainable practices underscore his excellence.

Conclusion

Dr. Kiros Getachew Belachew embodies the qualities of a distinguished researcher and educator, with a robust academic background, extensive professional experience, and impactful research contributions. His dedication to environmental sustainability and education makes him a strong candidate for recognition in his field. By addressing critical ecological challenges through innovative research and practical solutions, he continues to inspire and contribute meaningfully to his community and the broader scientific world.

Publication Top Notes

  1. “Effects of Eucalyptus camaldulensis Woodlot Plantation Expansion on Food Security in South Achefer District, West Gojjam, Amhara Region, Ethiopia”
    • Authors: Kiros Getachew Belachew, Alemu Gashe Desta, Ranjeet Kumar Mishra
    • Year: 2025
    • DOI: 10.1155/ijfr/1836605
  2. “Socioeconomic and Environmental Impacts of Eucalyptus Plantations in Ethiopia: An Evaluation of Benefits, Challenges, and Sustainable Practices”
    • Authors: Kiros Getachew Belachew, Wondwosson Kibrie Minale, Ho SoonMin
    • Year: 2025
    • DOI: 10.1155/tswj/1780293
  3. “Retranslocation of Nutrients in Three Indigenous Tree Species in Gozamn Woreda, North Central Ethiopia”
    • Author: Kiros Getachew Belachew
    • Year: 2016
  4. “Evaluation of Locally Available Fertilizer Tree/Shrub Species in Gozamin Woreda, North Central Ethiopia”
    • Author: Kiros Getachew Belachew
    • Year: 2015
  5. “Assessing the Potential for Biogas and Bio-fertilizer Production from Municipal Abattoir Waste in Debre Markos Town, Amhara Region, Ethiopia”
    • Author: Kiros Getachew Belachew
    • Year: 2023

 

 

Pingwei Zheng | Energy | Best Researcher Award

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Prof. Dr. Pingwei Zheng | Energy | Best Researcher Award

College teachers at University of South China, China

Prof. Dr. Pingwei Zheng, a distinguished physicist at the University of South China, specializes in RF heating and current drive in magnetic confinement fusion devices, focusing on the Ohkawa mechanism and synergy effects among electron cyclotron, high harmonic fast wave, and lower hybrid current drive methods. With a Ph.D. in Nuclear Fusion and Plasma Physics from USC, he has published extensively in leading journals, including Nuclear Fusion and Physics of Plasmas. His pioneering contributions, such as developing new mechanisms for current drive and synergy effects in plasma, have significantly advanced nuclear fusion research. Dr. Zheng has led multiple research projects funded by the National Natural Science Foundation of China and other provincial initiatives, showcasing his expertise in both theoretical and computational approaches. His technical proficiency, academic leadership, and innovative work position him as a leading figure in the field, contributing meaningfully to the global pursuit of sustainable fusion energy.

Professional Profile

Education

Professor Dr. Pingwei Zheng has a robust academic foundation in physics and nuclear fusion. He earned his Bachelor’s degree in Physics from Hunan Normal University, Changsha, in 2006. Driven by a passion for advanced research, he pursued postgraduate studies at the University of South China (USC), Hengyang, where he completed his Master’s degree in 2011, specializing in nuclear fusion and plasma physics. During this time, he developed a 3D Fokker-Planck code for RF heating and current drive using Fortran, laying the groundwork for his future contributions to fusion research. Building on his expertise, he obtained his Ph.D. in Nuclear Fusion and Plasma Physics from USC in 2019. His doctoral work focused on innovative mechanisms like Ohkawa-current-driven electron cyclotron waves and synergy effects in magnetic confinement fusion. This extensive academic journey reflects Dr. Zheng’s commitment to advancing the field of plasma physics and nuclear fusion technology.

Professional Experience

Prof. Dr. Pingwei Zheng is a distinguished physicist specializing in RF heating and current drive in magnetic confinement fusion devices. Since 2011, he has been a faculty member at the University of South China (USC), where he has led groundbreaking research on the Ohkawa mechanism-dominated current drive (OKCD) of electron cyclotron waves and the synergy effects between OKCD, high harmonic fast wave (HHFW), and lower hybrid current drive (LHCD). Dr. Zheng has successfully managed two projects funded by the National Natural Science Foundation of China and several provincial and ministerial-level research initiatives. His earlier work as a postgraduate included developing a 3D Fokker-Planck code for RF heating and current drive, showcasing his technical expertise in computational physics. Over the years, he has contributed significantly to advancing nuclear fusion research through his innovative studies, impactful publications in top-tier journals, and dedication to advancing fusion energy technologies.

Research Interest

Prof. Dr. Pingwei Zheng’s research is centered on advancing the understanding and development of RF heating and current drive mechanisms in magnetic confinement fusion devices. His work focuses on electron cyclotron current drive (ECCD), high harmonic fast wave (HHFW) current drive, and lower hybrid current drive (LHCD), with particular emphasis on the Ohkawa mechanism-dominated current drive (OKCD) and its synergy effects with other RF techniques. He has conducted innovative studies on the interaction of RF waves with plasma, including the stabilization of neoclassical tearing modes and enhancing current drive efficiency in the pedestal region of high-confinement tokamak plasmas. Prof. Zheng’s contributions extend to developing numerical methods and computational tools to simulate these phenomena, such as 3D Fokker-Planck codes. His research aims to address critical challenges in achieving sustainable fusion energy, positioning his work at the forefront of plasma physics and nuclear fusion technology.

Award and Honor

Prof. Dr. Pingwei Zheng, a distinguished researcher in nuclear fusion and plasma physics, has earned recognition for his groundbreaking contributions to RF heating and current drive in magnetic confinement fusion devices. As a principal investigator, he has successfully led multiple prestigious projects funded by the National Natural Science Foundation of China and provincial and ministerial-level bodies. His innovative research on the Ohkawa mechanism-dominated current drive (OKCD) and the synergy effects between RF current drive methods has been widely acclaimed. Dr. Zheng’s prolific academic output includes publications in high-impact journals such as Nuclear Fusion and Physics of Plasmas, showcasing his expertise and influence in the field. As a professor at the University of South China, he has become a leading voice in advancing theoretical and applied research in fusion technology, earning accolades for his commitment to scientific innovation and his contributions to the global energy research community.

Conclusion

Prof. Dr. Pingwei Zheng is a distinguished researcher whose work in nuclear fusion and plasma physics demonstrates significant innovation and technical mastery. His specialized research on RF heating and current drive mechanisms, particularly the Ohkawa mechanism and synergy effects, has made valuable contributions to the advancement of magnetic confinement fusion technology. With a strong academic background, numerous publications in high-impact journals, and leadership in nationally funded projects, Dr. Zheng has established himself as a leader in his field. His expertise in computational modeling and numerical methods further enhances the practical and theoretical depth of his research. While expanding his global collaborations and highlighting broader community engagement could strengthen his profile further, Dr. Zheng’s achievements clearly reflect his dedication to addressing critical challenges in fusion energy. His contributions make him a deserving and competitive candidate for the Best Researcher Award.

Publications Top Noted

  1. Numerical investigation of electron cyclotron and electron Bernstein wave current drive in EXL-50U spherical torus
  2. Numerical study of minority ion heating scenarios in CN-H1 stellarator plasma
  3. Numerical Studies on Electron Cyclotron Resonance Heating and Optimization in the CN-H1 Stellarator
  4. Impact of hot plasma effects on electron cyclotron current drive in tokamak plasmas
  5. A full wave solver integrated with a Fokker–Planck code for optimizing ion heating with ICRF waves for the ITER deuterium–tritium plasma
  6. Evaluation of ECCD power requirement for neoclassical tearing modes suppression in the CFETR hybrid scenario
  7. Integrated simulation analysis of the HL-2M high-parameter hybrid scenario
  8. Separate calculations of the two currents driven by electron cyclotron waves
  9. Electron cyclotron current drive under neutral beam injection on HL-2M
  10. Numerical study of m = 2/n = 1 neoclassical tearing mode stabilized by the Ohkawa-mechanism-dominated current drive of electron cyclotron waves
  11. Numerical investigation of ECCD under the CFETR concept design parameters
  12. Effective current drive in the pedestal region of high-confinement tokamak plasma using electron cyclotron waves
  13. New synergy effects of the lower hybrid wave and the high harmonic fast wave current drive
  14. Simulation of plasma scenarios for CFETR phase II based on engineering design parameters
  15. Numerical investigation of a new ICRF heating scenario in D-T plasma on CFETR
  16. Simulation of the Ohkawa-mechanism- dominated current drive of electron cyclotron waves using linear and quasi-linear models

 

Shukur Nasirov | Energy | Best Researcher Award

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Assoc. Prof. Dr. Shukur Nasirov | Energy | Best Researcher Award

Chief of Department at Azerbaijan State Oil and Industry University, Azerbaijan 

Shukur Nasirov is an Associate Professor and Head of the Energy Production Technologies Department at Azerbaijan State Oil and Industry University (ASOIU). Born on June 1, 1962, in Masis District, Armenian SSR, he is an expert in industrial thermal power engineering with over 30 years of academic and professional experience. His contributions span teaching, research, and leadership, and he has authored more than 100 scientific, educational, and methodological works, including 10 study guides and 3 textbooks. His research focuses on renewable energy, gas turbine technologies, and thermal power plants. Dr. Nasirov is also an active member of various academic and dissertation councils, highlighting his dedication to advancing education and research in energy technologies.

Professional Profile

Education

Dr. Nasirov graduated with honors in 1985 from the Azerbaijan Institute of Oil and Chemistry (now ASOIU), specializing in “Industrial Heat Power Engineering.” He later earned the degree of Candidate of Technical Sciences (equivalent to Ph.D.) with a thesis on the thermal properties of gasoline fractions in offshore oil fields of Azerbaijan. His academic foundation in heat engineering and industrial energy systems has shaped his career as a leading expert in the field, providing a strong base for his teaching and research endeavors.

Professional Experience

Since 1990, Dr. Nasirov has held several academic and research roles at ASOIU. Starting as a junior researcher, he progressed to senior researcher and associate professor, conducting classes at the undergraduate and graduate levels. In 2021, he was appointed Head of the Department of Energy Production Technologies. He also served as chairman of the Student Scientific Society and has been a member of ASOIU’s Academic and Scientific Councils since 2018. Dr. Nasirov has contributed to numerous industry-focused projects, including designing new steam boilers for ships and developing strategies for the energy sector, showcasing his blend of academic and practical expertise.

Research Interests

Dr. Nasirov’s research interests include industrial thermal power engineering, gas turbine technologies, renewable energy systems, thermal physical properties of petroleum products, and the intensification of heat exchange in oil refining equipment. His work addresses the challenges of improving efficiency and sustainability in energy production and refining processes. He is also deeply engaged in theoretical aspects of heating techniques, ensuring that his research contributes to both applied and foundational knowledge in the field.

Research Skills

Dr. Nasirov possesses a wide array of research skills, including the design and analysis of thermal power systems, optimization of heat exchange processes, and evaluation of thermal physical properties of petroleum products. His expertise in gas and steam turbines, as well as his ability to perfect turbine cycles, underscores his proficiency in advancing energy technologies. He is adept at mentoring students and conducting applied research that bridges academic knowledge with industrial applications, making him a leader in his field.

Awards and Honors

Dr. Nasirov’s achievements have been recognized with numerous awards, including the Jubilee Medal for the 100th anniversary of ASOIU in 2021. He has received grants for innovative projects such as the development of energy sector strategies and designing steam boilers for marine applications. His contributions to academic and industrial research have earned him respect and recognition as a key figure in energy technologies.

Conclusion

Dr. Shukur Nasirov is a distinguished academic and researcher whose work in energy technologies has significantly advanced the field of industrial thermal power engineering. With decades of experience, extensive scientific output, and leadership in academia, he has made notable contributions to teaching, research, and industrial projects. His dedication to innovation, coupled with his focus on training future energy professionals, positions him as a respected figure in the global energy research community.

Publication Top Notes

  1. Title: Hydrogen technologies: Optical properties of hydrogenated amorphous thin films for solar cells
    Authors: Najafov, B.A., Nasirov, S.N., Nasirov, S.N.
    Journal: International Journal of Hydrogen Energy
    Year: 2025
    Volume & Pages: 101, pp. 47–53
  2. Title: Production of thin-layer silicon alloys and their application in solar-hydrogen energy
    Authors: Najafov, B.A., Nasirov, S.N., Nasirov, S.N., Verdiyev, N.M.
    Journal: International Journal of Hydrogen Energy
    Year: 2025
    Volume & Pages: 99, pp. 926–938
  3. Title: HYDROGEN technologies for the manufacture of solar-hydrogen Energy objects
    Authors: Najafov, B.A., Nasirov, S.N., Neymetov, S.R.
    Journal: International Journal of Hydrogen Energy
    Year: 2025
    Volume & Pages: 99, pp. 328–339
  4. Title: Analysis of the Efficiency of the Bivalent Parallel Mode of Operation of Heat Pumps in an Individual Residential Building: A Study of the Operating Modes of the Heat Supply System
    Authors: Babayeva, S., Nasirov, S.
    Journal: Przeglad Elektrotechniczny
    Year: 2024
    Volume & Pages: (9), pp. 235–238

 

Anatoliy Michael Pavlenko | Energy Efficiency | Best Researcher Award

Published on by WSA Awards

Prof. Dr. Anatoliy Michael Pavlenko | Energy Efficiency | Best Researcher Award

Head of the Department of Building Physics and Renewable Energy at Kielce University of Technology, Poland

Anatoliy Pavlenko is a highly accomplished academic and researcher in the field of technical thermophysics and industrial heat and power systems. He earned his Doctor of Technical Sciences degree in 2003 and was granted the title of Professor in 2004, showcasing his extensive expertise and academic recognition. Currently serving as a full professor in the Department of Building Physics and Renewable Energy at Kielce University of Technology, Poland, he has a rich history of leadership roles at esteemed institutions in Ukraine and Poland. With research interests spanning heat and mass transfer, non-equilibrium thermodynamics, and heat transfer in boiling liquid mixtures, his contributions significantly advance knowledge in energy efficiency and renewable systems. His interdisciplinary approach combines advanced thermodynamics with practical applications, making him a global authority in his field.

Professional Profile

Education

Anatoliy Pavlenko completed his academic journey with a Doctor of Technical Sciences degree in 2003, specializing in Technical Thermophysics and Industrial Combined Heat and Power. This advanced degree signifies his mastery of thermodynamic principles and complex energy systems. His academic excellence paved the way for him to earn the prestigious title of Professor in 2004. Throughout his education, he developed a solid foundation in thermodynamics, energy systems, and heat transfer, equipping him to address both theoretical and applied challenges in his field.

Professional Experience

Anatoliy Pavlenko has over two decades of experience in academia and research. He served as a professor in the Department of Gas Dynamics and Heat Transfer at Dnipropetrovsk National University (2002–2012) and later as Head of the Department of Heat and Gas Supply, Ventilation, and Heat Power Engineering at Poltava National Technical University (2012–2016). Since 2016, he has been a full professor and previously Head of the Department of Building Physics and Renewable Energy at Kielce University of Technology in Poland. His leadership roles reflect his expertise in heat power systems, renewable energy, and sustainable technologies, contributing to the global advancement of thermophysics and energy research.

Research Interests

Anatoliy Pavlenko’s research focuses on cutting-edge topics in thermophysics and energy systems. His key areas of interest include heat and mass transfer in disperse systems, non-equilibrium thermodynamics, and heat transfer in boiling liquid mixtures. He is particularly interested in complex flows, metastable thermodynamic equilibria, and quasi-stationary thermodynamic states. His work addresses critical challenges in energy efficiency, renewable energy integration, and advanced heat transfer mechanisms, with applications in both industrial processes and sustainable energy systems. His interdisciplinary approach bridges theoretical thermodynamics and practical applications.

Research Skills

Anatoliy Pavlenko possesses advanced research skills in thermodynamic analysis, heat transfer modeling, and experimental studies of boiling liquid systems. He is adept at studying non-equilibrium processes, metastable states, and quasi-stationary thermodynamic systems. His expertise extends to analyzing complex flows and their thermodynamic equilibria. With a strong foundation in energy systems, he applies innovative methodologies to study heat and mass transfer phenomena. His skills in designing experiments, data analysis, and numerical modeling have enabled him to contribute groundbreaking insights to thermophysics and renewable energy research.

Awards and Honors

Anatoliy Pavlenko’s academic achievements have earned him significant recognition. He was awarded the title of Professor in 2004, highlighting his expertise and impact in technical thermophysics and energy systems. While specific awards are not detailed, his leadership roles at prestigious universities and departments underscore his respected status in the field. His contributions to advanced heat transfer research and renewable energy applications have positioned him as a thought leader in global thermophysics, earning him a distinguished place in academia and research.

Conclusion

Anatoliy Pavlenko’s extensive academic and professional experience, coupled with his expertise in thermodynamics and renewable energy, make him a strong candidate for the Best Researcher Award. His work on complex heat and mass transfer phenomena and thermodynamic processes has significant implications for industrial and sustainable energy systems. However, the application would benefit from additional details about his publication record, research funding, awards, and recent innovations. Addressing these areas would further solidify his position as a deserving recipient of this prestigious award.

Publication Top Notes

  1. A new trend in combustion engine’s deep waste heat recovery by application of condensing economizers in exhaust boilers
    • Authors: Kornienko, V., Radchenko, M., Radchenko, R., Pavlenko, A., Radchenko, A.
    • Year: 2025
  2. Adaptable management for cooling cyclic air in ship power plants by heat conversion – Part 1: Downsizing strategy for cogeneration plants
    • Authors: Radchenko, R., Radchenko, A., Mikielewicz, D., Pavlenko, A., Andreev, A.
    • Year: 2024
  3. Experimental and Numerical Studies of Heat Transfer Through a Double-Glazed Window with Electric Heating of the Glass Surface
    • Authors: Koshlak, H., Basok, B., Pavlenko, A., Davydenko, B., Piotrowski, J.
    • Year: 2024
  4. Studies on Improving Seals for Enhancing the Vibration and Environmental Safety of Rotary Machines
    • Authors: Yuan, Z., Shevchenko, S., Radchenko, M., Radchenko, A., Radchenko, R.
    • Year: 2024
    • Citations: 1
  5. Comprehensive Investigation of the Thermal Performance of an Electrically Heated Double-Glazed Window: A Theoretical and Experimental Approach
    • Authors: Basok, B., Pavlenko, A., Novikov, V., Ciosek, A., Moroz, M.
    • Year: 2024
    • Citations: 1
  6. Study of the Dynamics of a Single Bubble
    • Authors: Pavlenko, A., Koshlak, H.
    • Year: 2024
  7. The Thermophysical Aspects of the Transformation of Porous Structures in Versatile Nanostructured Materials
    • Authors: Koshlak, H., Basok, B., Pavlenko, A., Hrabova, T., Opryshko, V.
    • Year: 2024
  8. Numerical Modeling of the Behavior of Bubble Clusters in Cavitation Processes
    • Authors: Pavlenko, A.
    • Year: 2024
    • Citations: 2
  9. Study of the Influence of Temperature and Pressure on the Intensity of Gas Hydrate Formation
    • Authors: Pavlenko, A.
    • Year: 2024
  10. Prospects for the Use of Synthesized Gas Hydrates in the National Economy
    • Authors: Pavlenko, A., Koshlak, H., Basok, B.
    • Year: 2024