Tag: Smart Materials Recognition

Jing Li | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Jing Li | Materials Science | Best Researcher Award

Associate Professor from Hainan University, China

Dr. Jing Li is an accomplished researcher currently serving as an associate researcher at the School of Marine Science and Engineering, Hainan University. With a strong foundation in chemical and energy engineering, she focuses her research on hydrogen production technologies, particularly through water electrolysis and seawater electrolysis. Her work contributes significantly to the development of clean and renewable energy systems, aligning with global goals for sustainable energy and decarbonization. Dr. Li is deeply involved in investigating the mechanisms behind seawater electrolysis, aiming to enhance its efficiency and feasibility for practical applications. She combines theoretical analysis with experimental methods to advance the field of hydrogen energy, while also contributing to the design and optimization of related electrochemical devices. Her scientific contributions are becoming increasingly relevant as nations seek alternatives to fossil fuels and move toward hydrogen-based energy systems. Through her commitment to excellence and innovation, Dr. Li has emerged as a key contributor to the field of green hydrogen research. Her dedication to environmental sustainability and energy efficiency reflects in her work, making her a valuable asset to her institution and the broader scientific community. She represents a new generation of researchers addressing urgent global challenges through advanced science and technology.

Professional Profile

Education

Dr. Jing Li received her Ph.D. degree from South China University of Technology, a leading institution in the fields of chemical engineering and materials science. During her doctoral studies, she focused on electrochemical energy conversion systems, developing a strong background in hydrogen production technologies and electrolysis processes. Her doctoral research laid a solid foundation for her future work on hydrogen generation and device optimization. The rigorous training she received at South China University of Technology equipped her with comprehensive knowledge of physical chemistry, materials synthesis, electrochemical mechanisms, and energy systems. Her academic path emphasized both theoretical modeling and hands-on laboratory experimentation, preparing her to tackle complex problems in energy conversion and sustainability. The curriculum and research environment of her alma mater encouraged innovation, cross-disciplinary integration, and critical thinking—skills that are now central to her research endeavors. As a result, Dr. Li emerged from her Ph.D. studies with a well-rounded academic background, capable of contributing original and impactful research to the field of renewable energy. Her advanced education continues to be the driving force behind her current projects and scientific achievements in marine-based hydrogen technologies.

Professional Experience

Dr. Jing Li currently holds the position of Associate Researcher at the School of Marine Science and Engineering, Hainan University. In this role, she leads and contributes to multiple research projects focused on hydrogen production and electrochemical energy systems. Her responsibilities include the design and optimization of experimental protocols for seawater electrolysis, analysis of reaction mechanisms, and development of innovative device architectures. Prior to her current role, she gained valuable research experience through academic and industrial collaborations during her doctoral studies, participating in joint projects that combined advanced materials science with sustainable energy applications. At Hainan University, she actively mentors graduate students, fosters interdisciplinary research, and contributes to the university’s growing reputation in marine engineering and clean energy. She is involved in securing research funding, publishing peer-reviewed articles, and presenting her findings at national and international conferences. Her academic career is marked by a clear trajectory of research focus and practical innovation. Dr. Li’s professional journey reflects her commitment to addressing global energy challenges through scientific rigor, collaborative teamwork, and a passion for renewable energy solutions, positioning her as a rising expert in hydrogen energy systems and electrochemical engineering.

Research Interest

Dr. Jing Li’s primary research interests revolve around hydrogen energy production, particularly through electrochemical methods such as water and seawater electrolysis. She is deeply focused on advancing the fundamental understanding and practical efficiency of hydrogen generation technologies, which play a pivotal role in global strategies for achieving carbon neutrality. Her specific interests include the development of novel catalysts and electrodes for electrolysis, the optimization of electrochemical devices, and the study of reaction pathways and mechanisms involved in seawater splitting. Her work aims to overcome critical barriers such as low efficiency, high energy consumption, and corrosion challenges associated with seawater electrolysis. In addition, Dr. Li is interested in sustainable device engineering and system integration for on-site hydrogen generation, particularly in marine and coastal environments. She explores new materials and surface treatments to improve the durability and output of electrolysis systems. Her interdisciplinary approach draws from materials science, electrochemistry, environmental science, and marine engineering, positioning her research at the intersection of clean energy and sustainable water resources. Ultimately, Dr. Li’s research contributes to building a hydrogen-based energy economy by developing cost-effective, scalable, and eco-friendly solutions for renewable hydrogen production from natural water sources.

Research Skills

Dr. Jing Li possesses a comprehensive set of research skills essential for advanced studies in hydrogen production and electrochemical systems. Her expertise includes electrochemical characterization techniques such as cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and chronoamperometry, which she uses to investigate reaction kinetics and evaluate catalyst performance. She is proficient in synthesizing and modifying electrocatalyst materials, utilizing both wet chemistry and solid-state methods. Additionally, she is skilled in the structural and surface characterization of materials using tools such as scanning electron microscopy (SEM), X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). Her research also involves the design and fabrication of prototype electrolysis cells and custom test platforms for real-time performance assessment. Dr. Li has experience with computational modeling and data analysis, enabling her to link experimental results with theoretical insights. Her laboratory management skills include supervising junior researchers, ensuring safety compliance, and maintaining the quality and reproducibility of experimental protocols. She is also adept at scientific writing and communication, regularly contributing to peer-reviewed publications and technical reports. Overall, her diverse technical and analytical competencies enable her to lead innovative research in clean hydrogen energy with precision, depth, and scientific integrity.

Awards and Honors

Dr. Jing Li has received recognition for her promising contributions to sustainable energy research through awards and institutional support, although she is still in the early stages of accumulating large-scale accolades. During her Ph.D. studies, she was awarded scholarships and research grants that supported her work in electrochemical energy conversion. Her research excellence has been acknowledged through conference presentations, invitations to collaborative projects, and institutional funding for emerging researchers at Hainan University. These honors reflect her growing impact and the scientific merit of her research topics. She has also been nominated for early-career researcher awards within university-level initiatives and has gained positive peer recognition for her work on seawater electrolysis. While her list of international or national awards is still developing, her consistent scientific output and growing portfolio of research projects suggest she is on a strong trajectory toward more prestigious recognitions. As her career advances and her contributions to hydrogen energy research expand, Dr. Li is well-positioned to receive further awards and honors that reflect her dedication, innovation, and potential to drive meaningful change in the field of clean energy technology.

Conclusion

Dr. Jing Li is a dedicated and emerging researcher in the field of hydrogen energy, with a clear focus on water and seawater electrolysis. Her work is contributing to one of the most pressing challenges of our time: the transition to clean and sustainable energy. With a strong academic background, growing publication record, and hands-on expertise in electrochemical systems, she is steadily building a research profile that addresses both theoretical and practical aspects of hydrogen production. Her commitment to advancing fundamental understanding while developing scalable technologies demonstrates a balanced and forward-thinking research philosophy. While she would benefit from expanded collaborations, a broader international presence, and increased visibility through publications and patents, she has already shown a strong capacity for impactful innovation. Dr. Li represents the next generation of energy researchers who are not only contributing to academic knowledge but also offering real-world solutions. Her continued progress and dedication make her a strong and deserving candidate for the Best Researcher Award, and recognition at this stage would further support and motivate her promising research career in the energy sciences.

Publications Top Notes

1. Tip carbon encapsulation customizes cationic enrichment and valence stabilization for low K+ acidic CO2 electroreduction

Authors: Zhitong Wang, Dongyu Liu, Chenfeng Xia, … Bao Yu Xia, Xinlong Tian

Journal: Nature Communications

Year: 2025

Citations: 1

2. Plant derived multifunctional binders for shuttle-free zinc-iodine batteries

Authors: Jiahao Zhu, Shan Guo, Yang Zhang, … Xinlong Tian, Xiaodong Shi

Journal: Nano Energy

Year: 2025

3. Pyrrole-type TM-N3 sites as high-efficient bifunctional oxygen reactions electrocatalysts: From theoretical prediction to experimental validation

Authors: Chunxia Wu, Yanhui Yu, Yiming Song, … Xinlong Tian, Daoxiong Wu

Journal: Journal of Energy Chemistry

Year: 2025

Citations: 2

4. Oxygen-Coordinated Cr Single-Atom Catalyst for Oxygen Reduction Reaction in Proton Exchange Membrane Fuel CellsAuthors: Junming Luo, Yating Zhang, Zhe Lü, … Zhengpei Miao, Xinlong Tian

Journal: Angewandte Chemie International Edition

Year: 2025

5. Ni-N-C support boosts PtRu sub-nanocluster for effective methanol oxidation reaction

Authors: Xue Zhang, Chunxia Wu, Ye Bu, … Xinlong Tian, Peilin Deng

Journal: Chemical Engineering Journal

Year: 2025

6. Layered Organic Molecular Crystal with One-Dimensional Ion Migration Channel for Durable Magnesium-Based Dual-Ion Batteries

Authors: Yanzeng Ge, Baoquan Liu, Daoxiong Wu, … Xinlong Tian, Jinlin Yang

Journal: ACS Energy Letters

Year: 2025

Citations: 2

7. Hard Lewis acid induced chloride repulsion for durable neutral seawater electrolysis (Review)

Authors: Suyang Feng, Gai Li, Qingyi Wei, … Xinlong Tian, Zhenye Kang

Year: 2025

Citations: 1

8. Iridium-based electrocatalysts for acidic oxygen evolution reaction (Review)

Authors: Yanhui Yu, Gai Li, Yutong Xiao, … Xinlong Tian, Yuliang Yuan

Year: 2025

Citations: 1

9. Recent advances of CuSbS₂ and CuPbSbS₃ as photocatalyst in the application of photocatalytic hydrogen evolution and degradation (Review)

Authors: Xinlong Zheng, Zhongyun Shao, Jiaxin Lin, … Xinlong Tian, Yuhao Liu

Year: 2025

Citations: 1

10. Sulfonated Lignin Binder Blocks Active Iodine Dissolution and Polyiodide Shuttle Toward Durable Zinc-Iodine Batteries

Authors: Zhixiang Chen, Jie Zhang, Chuancong Zhou, … Xinlong Tian, Xiaodong Shi

Journal: Advanced Energy Materials

Year: 2025

Citations: 4

Xiangyang Zhou | Materials Science | Best Researcher Award

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Prof. Dr. Xiangyang Zhou | Materials Science | Best Researcher Award

Professor from University of Miami, United States

Dr. Xiangyang Zhou is a seasoned Professor of Materials Science and Engineering at the University of Miami, with a distinguished academic and research career spanning over three decades. His work is recognized internationally, particularly for his contributions to the development of advanced materials for solid-state energy storage systems. With a research emphasis on supercapacitors, polymer electrolytes, and mediator-enhanced energy storage devices, Dr. Zhou has played a pivotal role in advancing the understanding and application of electrochemical energy conversion technologies. His academic journey began in China and continued in the United Kingdom, culminating in a Ph.D. in Materials Science and Engineering. Over the years, he has published extensively in reputed peer-reviewed journals and collaborated on interdisciplinary projects that blend experimental techniques with computational modeling. Dr. Zhou has held prominent positions in academia and research institutes, contributing not only as a scholar but also as a mentor to emerging scientists. His current work focuses on the development of novel composite materials for high-performance, low-temperature solid-state supercapacitors. Known for his methodical and innovative research approach, Dr. Zhou continues to influence the direction of materials science with his commitment to both fundamental studies and applied research.

Professional Profile

Education

Dr. Xiangyang Zhou has a solid educational foundation in physics and materials science, having completed his academic training across some of the most respected institutions in China and the United Kingdom. He earned his Bachelor of Science in Physics from Wuhan University in Hubei, China in July 1984. This early training laid a strong foundation in the physical sciences, providing a gateway to more specialized research in materials engineering. Following his undergraduate education, Dr. Zhou pursued a Master of Science in Materials Science and Engineering at the Institute of Corrosion and Protection of Metals, part of the Academy of Science in Shenyang, China, completing it in July 1988. His graduate work focused on the corrosion behavior of metals, a critical issue in materials durability. To further his expertise, Dr. Zhou undertook doctoral studies at the University of Newcastle Upon Tyne in the United Kingdom, where he received his Ph.D. in Materials Science and Engineering in April 1996. His doctoral research provided him with in-depth knowledge of material behavior at both the micro and macro scales, preparing him for a successful and impactful research career in advanced materials and energy systems.

Professional Experience

Dr. Zhou has a rich and varied professional background in academic and applied research settings. Since 2005, he has served as a Professor at the University of Miami in Coral Gables, Florida, where he leads research initiatives in materials science and electrochemical energy storage systems. His long-standing tenure at the University of Miami reflects his sustained contributions to education, mentorship, and research excellence. Prior to his current position, he held concurrent roles between 2002 and 2005 as a Senior Scientist at the Applied Research Institute and a Research Scientist at the Applied Research Center at Florida International University. These roles allowed him to engage in application-driven research projects and collaborate with industry and governmental stakeholders. From 1996 to 2002, Dr. Zhou worked as a Research Associate at Pennsylvania State University’s Center of Advanced Materials, where he focused on pioneering materials simulation and experimental validation. His early career included a role as an Assistant Researcher at the Institute of Corrosion and Protection of Metals under the Academy of Science in Shenyang, China. Throughout his career, Dr. Zhou has integrated academic excellence with real-world research experience, positioning him as a leader in the development of innovative materials and energy technologies.

Research Interest

Dr. Xiangyang Zhou’s research interests lie at the intersection of materials science, electrochemistry, and energy storage technologies. He is particularly focused on the design, synthesis, and characterization of polymer-based solid-state electrolytes and mediator-enhanced supercapacitors. His work seeks to address critical challenges in energy storage systems, such as improving ionic conductivity, enhancing energy density, and ensuring operational stability at low temperatures. Dr. Zhou is also interested in the molecular mechanisms of proton transport in water and polymeric systems, and his investigations often bridge theoretical simulation with experimental methods. Over the years, he has developed novel polymer membranes, such as polyvinylidene fluoride/lithium trifluoromethanesulfonate systems, which show significant promise for next-generation energy devices. His research is deeply interdisciplinary, integrating principles from physics, chemistry, and materials engineering. In addition to applied device development, Dr. Zhou explores the fundamental electrochemical and spectroscopic properties of materials, employing in situ characterization methods to monitor changes during operation. This comprehensive approach enables him to tackle real-world challenges in energy conversion and storage, while also contributing to fundamental scientific understanding. His research continues to make meaningful contributions to the fields of nanomaterials, energy systems, and green technology.

Research Skills

Dr. Xiangyang Zhou possesses a wide range of technical and analytical research skills that have supported his extensive contributions to the field of materials science. He is adept at both experimental and computational techniques, including ab initio simulations, atomistic modeling, and X-ray absorption spectroscopy. These tools have enabled him to explore conduction and diffusion processes at the atomic level in various polymer electrolyte systems. Dr. Zhou also demonstrates expertise in electrochemical analysis, such as cyclic voltammetry and electrochemical impedance spectroscopy, which he uses to characterize the performance of solid-state supercapacitors and mediator-assisted devices. In terms of materials synthesis, he has experience with the fabrication of polymer composite membranes and the development of nanoporous electrodes. His skills further extend to in situ spectroscopic techniques that allow for real-time monitoring of material behavior under operating conditions. Dr. Zhou’s ability to integrate these skills within a coherent research framework has led to high-impact studies in reputable journals. His strong command of materials characterization tools and simulation software places him at the forefront of materials innovation, particularly in the rapidly evolving domain of energy storage technologies.

Awards and Honors

While the specific awards and honors received by Dr. Zhou are not listed in the biographical sketch provided, his long-standing professorship at the University of Miami and his extensive publication record suggest a career marked by academic excellence and recognition within the scientific community. His leadership in research on solid-state supercapacitors and polymer electrolytes has positioned him as a key contributor to the field, and his work has been published in top-tier journals such as the Journal of Power Sources, Journal of Electrochemical Society, and Journal of Membrane Science. These publications are often peer-reviewed by leading experts, reflecting the high quality and significance of his research. Moreover, his collaborative research with scientists such as A.N. Mansour and participation in interdisciplinary studies indicate a reputation of trust and respect in academic circles. It is likely that Dr. Zhou has also served on editorial boards, scientific committees, or as a reviewer for funding agencies, although these details are not specified. Overall, his enduring academic presence and influential research output highlight the esteem in which he is held by peers in materials science and engineering.

Conclusion

Dr. Xiangyang Zhou emerges as a highly qualified and impactful researcher whose contributions to materials science and energy storage technologies are both innovative and influential. His academic trajectory—from undergraduate studies in physics in China to doctoral work in the United Kingdom—reflects a global perspective on scientific inquiry. Throughout his professional journey, he has consistently advanced the frontier of polymer electrolytes and solid-state supercapacitors, combining theory, simulation, and experimental techniques. His ability to publish in high-impact journals and collaborate across disciplines underscores his effectiveness as a thought leader and innovator. Although formal recognitions and awards were not explicitly listed, his career accomplishments and scholarly output make a compelling case for his nomination for a Best Researcher Award. Dr. Zhou’s research continues to address pressing technological challenges related to clean energy and advanced materials, which are critical areas of global importance. His commitment to mentorship, interdisciplinary collaboration, and scientific rigor exemplifies the qualities of an outstanding researcher. He would be a deserving recipient of the award, and his selection would reinforce the value of sustained academic excellence and forward-thinking innovation in scientific research.

Publications Top Notes

  1. Application of GO anchored mediator in a polymer electrolyte membrane for high-rate solid-state supercapacitors
    Authors: Zhiwei Yan, Xiangyang Zhou, Yuchen Wang, Gordon Henry Waller, Zhijia Du
    Journal: Journal of Membrane Science
    Year: 2023
    Citations: 4

  2. Recent advances in solid-state supercapacitors: From emerging materials to advanced applications (Review)
    Authors: Mert Akin, Xiangyang Zhou
    Year: 2023
    Citations: 33

  3. In situ XAS investigation of K₄Fe(CN)₆·xH₂O and K₃Fe(CN)₆ redox activity in solid-state supercapacitors
    Authors: Azzam N. Mansour, Jonathan K. Ko, Xiangyang Zhou, Chen Zhang, Mahalingam Balasubramanian
    Journal: Journal of the Electrochemical Society
    Year: 2022
    Citations: 4

  4. Co-cured manufacturing of multi-cell composite box beam using vacuum assisted resin transfer molding
    Authors: Mert Akin, Cagri Y. Oztan, Rahmi Akin, Victoria L. Coverstone-Carroll, Xiangyang Zhou
    Journal: Journal of Composite Materials
    Year: 2021
    Citations: 4

  5. Structural analysis of K₄Fe(CN)₆·3H₂O, K₃Fe(CN)₆ and Prussian Blue (Open access)
    Authors: Azzam N. Mansour, Jonathan K. Ko, Gordon Henry Waller, Xiangyang Zhou, Mahalingam Balasubramanian
    Journal: ECS Journal of Solid State Science and Technology
    Year: 2021
    Citations: 17

  6. Electrochemical and in situ spectroscopic study of the effect of Prussian Blue as a mediator in a solid-state supercapacitor (Open access)
    Authors: Xiaoyao Qiao, Zhiwei Yan, Chen Zhang, Curtis A. Martin, Mahalingam Balasubramanian
    Journal: Journal of the Electrochemical Society
    Year: 2021
    Citations: 8

  7. Greatly enhanced energy density of all-solid-state rechargeable battery operating in high humidity environments (Open access)
    Authors: Yuchen Wang, Mert Akin, Xiaoyao Qiao, Zhiwei Yan, Xiangyang Zhou
    Journal: International Journal of Energy Research
    Year: 2021
    Citations: 3

Kiran Batool | Materials Science | Best Researcher Award

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Dr. Kiran Batool | Materials Science | Best Researcher Award

Researcher from Physics Department, Pakistan

Dr. Kiran Batool is a dedicated researcher and academic specializing in nanomaterials, electrochemical energy storage, and environmental applications. With a robust research portfolio featuring 37 publications in high-impact journals, she has made significant contributions to material synthesis and characterization techniques. Her expertise extends to developing advanced materials for supercapacitors, batteries, and catalysts. Dr. Batool possesses strong teaching and mentorship experience, having instructed both undergraduate and graduate students in various physics courses. She has also served as a research associate, contributing to multiple interdisciplinary projects. Her commitment to innovation and sustainability drives her research in energy-efficient and environmentally friendly material applications. With a deep understanding of analytical and experimental techniques, she remains at the forefront of cutting-edge scientific advancements in her field.

Professional Profile

Education

Dr. Kiran Batool has pursued an extensive academic journey, equipping her with a strong foundation in physics and materials science. She completed her Ph.D. in Physics with a specialization in nanomaterials and energy storage applications. Prior to that, she earned an M.Phil. in Physics, focusing on advanced material characterization techniques. Her bachelor’s degree laid the groundwork for her expertise in fundamental physics and material properties. Throughout her academic career, she has remained engaged in research-intensive programs, allowing her to develop a deep understanding of electrochemical energy storage systems, catalysis, and sustainable materials. Her education has provided her with the theoretical knowledge and practical skills necessary to excel in both research and academia. Dr. Batool’s continuous pursuit of knowledge and innovation has made her a respected figure in the scientific community.

Professional Experience

Dr. Kiran Batool has accumulated extensive professional experience in both research and teaching roles. As a research associate, she contributed to various interdisciplinary projects focused on nanomaterial synthesis and energy storage applications. Her role involved conducting experimental research, analyzing data, and collaborating with fellow researchers to advance scientific knowledge. Additionally, Dr. Batool has served as a visiting lecturer, teaching undergraduate and graduate students in physics-related courses. She has supervised student research projects and provided mentorship to aspiring scientists. Her experience extends to laboratory management, experimental design, and technical troubleshooting. Dr. Batool’s dedication to education and research has enabled her to bridge the gap between theoretical knowledge and practical applications. Her contributions to academia and research institutions highlight her ability to work in dynamic environments while fostering scientific innovation.

Research Interests

Dr. Kiran Batool’s research interests lie in the development and characterization of advanced nanomaterials for energy and environmental applications. She is particularly focused on electrochemical energy storage systems, including supercapacitors and batteries, where she explores novel material compositions for enhanced performance. Her work also extends to catalysis, investigating sustainable materials for environmental remediation. Dr. Batool is deeply involved in the synthesis of nanostructured materials using techniques such as hydrothermal, sol-gel, and solvothermal methods. She is keen on integrating experimental and computational approaches to optimize material properties. Her research aims to contribute to the advancement of green energy solutions and environmentally friendly materials. By exploring innovative synthesis techniques and material functionalities, she seeks to develop next-generation energy storage devices that are both efficient and sustainable.

Research Skills

Dr. Kiran Batool possesses a diverse range of research skills that contribute to her excellence in material science and energy research. Her expertise includes nanomaterial synthesis through hydrothermal, sol-gel, and solvothermal techniques. She is proficient in material characterization methods such as X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and Raman spectroscopy. Dr. Batool is also skilled in electrochemical analysis, including cyclic voltammetry and electrochemical impedance spectroscopy. Her ability to integrate various experimental techniques allows her to conduct in-depth analyses of material properties. Additionally, she has experience in data analysis, statistical modeling, and research project management. Her technical proficiency, combined with her strong analytical skills, enables her to conduct high-impact research that contributes to scientific advancements in energy storage and catalysis.

Awards and Honors

Dr. Kiran Batool has received multiple recognitions for her contributions to scientific research and academia. She has been acknowledged for her high-impact publications and significant advancements in nanomaterial synthesis and characterization. Her research on electrochemical energy storage has been cited extensively, highlighting its relevance in the field. Dr. Batool has also been honored for her teaching excellence, receiving commendations from academic institutions for her dedication to student mentorship and education. Additionally, she has participated in several international conferences and research symposiums, where her work has been recognized by peers and experts in the field. Her commitment to advancing scientific knowledge and her contributions to sustainable energy solutions continue to earn her accolades in the academic and research communities.

Conclusion

Dr. Kiran Batool stands out as a distinguished researcher and academic with a strong background in nanomaterials, energy storage, and material characterization. Her extensive research output, combined with her technical proficiency and teaching experience, makes her a valuable asset to the scientific community. She continues to push the boundaries of innovation, focusing on sustainable and efficient energy solutions. With expertise spanning experimental research, data analysis, and mentorship, she exemplifies excellence in academia and applied sciences. Dr. Batool’s dedication to research and education ensures that her contributions will have a lasting impact on the fields of material science and renewable energy. Her growing recognition and commitment to scientific progress make her a strong candidate for prestigious research awards and honors.

Publications Top Notes

  1. Sustainable Synthesis and Electrochemical Characterization of Ti₃C₂/Fe₁₋ₓBaₓCr₂O₄ Nanocomposite for Enhanced Supercapacitor Electrode Performance

    • Authors: Kiran Batool, Adel A. El-Marghany, Muhammad Usman Saeed
    • Year: 2025

  2. Bandgap Nature Transition and the Optical Properties of ABX₃ (A = K, Rb; B = Sr, Ba, Ca; X = Cl, Br, I) Perovskites Under Pressure

    • Authors: Mohib Ullah, Naqeeb Ullah, Ammar M. Tighezza, Kiran Batool, Ghulam M. Murtaza
    • Year: 2025
    • Citations: 2

  3. Electrifying Energy Storage by Investigating the Electrochemical Behavior of CoCr₂O₄/Graphene-Oxide Nanocomposite as Supercapacitor High-Performance Electrode Material

    • Authors: Rubia Shafique, Malika M. Rani, Naveed Kasuar Janjua, Mariam Akram, Akram A. Ibrahim
    • Year: 2024

 

 

Yushuang Zhang | Materials Science | Best Researcher Award

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Mrs. Yushuang Zhang | Materials Science | Best Researcher Award

Assistant Researcher at National University of Defense Technology, China

Yu-shuang Zhang is a dedicated researcher and lecturer at the National University of Defense Technology (NUDT), China, specializing in materials science and nanotechnology. With a strong academic foundation in electronics and materials science, his research focuses on the development of advanced materials for photonics, optoelectronics, and semiconductor applications. He has published extensively in high-impact journals, including Advanced Materials and Nature Communications, demonstrating his expertise in black phosphorus, infrared photodetectors, and quantum dots. His work has gained significant recognition, earning him prestigious awards such as the 2024 Young Scientist Award and the 2020 China Semiconductor Top Ten Research Progress Nomination Award. As an emerging leader in his field, he continues to contribute to the advancement of materials science through cutting-edge research and innovative technological developments.

Professional Profile

Education

Yu-shuang Zhang completed his Bachelor’s degree in Electronics Science and Technology from HeFei University of Technology, China, in 2016. He then pursued a Ph.D. in Materials Science and Engineering at Hunan University, China, completing his doctoral studies in 2022. During his Ph.D., he also conducted research at the CAS Suzhou Institute of Nano-Tech and Nano-Bionics from May 2021 to December 2021, where he gained hands-on experience in nanomaterials and advanced material characterization techniques. His multidisciplinary education in electronics and materials science has provided him with a strong foundation for research in optoelectronics, photonics, and nanotechnology.

Professional Experience

Since 2022, Yu-shuang Zhang has been serving as a lecturer at the National University of Defense Technology (NUDT), China. In this role, he has been actively involved in teaching, mentoring students, and conducting high-impact research. His work primarily focuses on developing next-generation materials for infrared photodetectors, semiconductor applications, and quantum dot technology. His affiliation with NUDT has provided him access to state-of-the-art research facilities, enabling him to work on innovative projects that contribute to advancements in electronic and optical materials. Through his academic and research engagements, he continues to shape the future of materials science while collaborating with leading scientists in his field.

Research Interests

Yu-shuang Zhang’s research interests lie at the intersection of nanotechnology, optoelectronics, and materials science. His primary focus is on black phosphorus and its applications in wavelength-tunable mid-infrared lasers, quantum dot-based fluorescence enhancement, and high-performance infrared photodetectors. He is also deeply involved in studying the epitaxial growth of high-crystalline materials for semiconductor and photonic applications. His work aims to develop novel materials with enhanced electronic and optical properties for use in advanced sensing, imaging, and communication technologies. His research has significant implications for next-generation semiconductor devices and optical computing systems.

Research Skills

Yu-shuang Zhang possesses a wide range of research skills in materials synthesis, nanofabrication, and advanced characterization techniques. He has extensive experience in chemical vapor deposition (CVD), molecular beam epitaxy (MBE), and quantum dot fabrication for optoelectronic applications. He is proficient in using scanning electron microscopy (SEM), transmission electron microscopy (TEM), atomic force microscopy (AFM), and X-ray diffraction (XRD) for material characterization. His expertise also includes spectroscopic techniques such as Raman spectroscopy, photoluminescence (PL) spectroscopy, and infrared spectroscopy. Additionally, he has strong analytical and computational skills, enabling him to model and optimize material properties for specific technological applications.

Awards and Honors

Yu-shuang Zhang has received several prestigious awards in recognition of his research excellence. In 2024, he was honored with the Young Scientist Award at the Seminar on Emerging Functional Materials and Devices in China. In 2020, he was nominated for the China Semiconductor Top Ten Research Progress Award, a testament to the significance of his contributions to semiconductor research. He also received multiple academic honors, including the President’s Scholarship and the Yangtze River Environmental Scholarship from Hunan University in 2020. Additionally, he secured second prize at the 13th Hunan Graduate Innovation Forum, highlighting his innovative research in materials science.

Conclusion

Yu-shuang Zhang is a promising researcher with a strong academic and professional background in materials science and optoelectronics. His contributions to black phosphorus-based mid-infrared lasers, quantum dots, and infrared photodetectors have positioned him as an emerging leader in the field. With multiple high-impact publications and prestigious awards to his name, he has demonstrated exceptional research capabilities. As he continues his work at the National University of Defense Technology, further expanding his independent research projects and international collaborations will strengthen his impact. His expertise and dedication make him a strong candidate for recognition as an outstanding researcher in his field.

Publications Top Notes

Title: “Synergistic Enhancement of Fluorescence Through Plasmon Resonance and Interfacial Charge Transfer by AgNC@AgAux Core–Shell Quantum Dots”

  • Authors: Youlong Chen, Yihua Hu, Yushuang Zhang, Hao Huang, Xing Yang, Youlin Gu, Fanhao Meng, Yuhao Xia, Ziwei Fu, Xinyuan Zhang, et al.

  • Year: 2025

  • DOI: 10.1002/adma.202415388

  • Source: Advanced Materials

2. Title: “Plasmon-Enhanced Fluorescence of Gold Nanoparticle/Graphene Quantum Dots for Detection of Cr³⁺ Ions”

  • Authors: You-Long Chen, Yi-Hua Hu, Xing Yang, You-Lin Gu, Xin-Yu Wang, Yu-Hao Xia, Xin-Yuan Zhang, Yu-Shuang Zhang

  • Year: 2023

  • DOI: 10.1364/PRJ.495683

  • Source: Photonics Research

3. Title: “Growth of Single-Crystal Black Phosphorus and Its Alloy Films Through Sustained Feedstock Release”

  • Authors: Cheng Chen, Yuling Yin, Rencong Zhang, Qinghong Yuan, Yang Xu, Yushuang Zhang, Jie Chen, Yan Zhang, Chang Li, Junyong Wang, et al.

  • Year: 2023

  • DOI: 10.1038/s41563-023-01516-1

  • Source: Nature Materials

4. Title: “A Waveguide-Integrated Two-Dimensional Light-Emitting Diode Based on p-Type WSe₂/n-Type CdS Nanoribbon Heterojunction”

  • Authors: Xin Yang, Rong Wu, Biyuan Zheng, Ziyu Luo, Wenxia You, Huawei Liu, Lihui Li, Yushuang Zhang, Qin Tan, Delang Liang, et al.

  • Year: 2022

  • DOI: 10.1021/ACSNANO.1C10607

  • Source: ACS Nano

5. Title: “Controllable Synthesis of Narrow-Gap van der Waals Semiconductor Nb₂GeTe₄ with Asymmetric Architecture for Ultrafast Photonics”

  • Authors: Yongping Dai, Qiang Yu, Xiaoxin Yang, Kun Guo, Yan Zhang, Yushuang Zhang, Junrong Zhang, Jie Li, Jie Chen, Haiqin Deng, et al.

  • Year: 2022

  • DOI: 10.1021/ACSNANO.1C10241

  • Source: ACS Nano

6. Title: “Erbium Chloride Silicate-Based Vertical Cavity Surface-Emitting Laser at the Near-Infrared Communication Band”

  • Authors: Hepeng Zhao, Xinchao Zhao, Xuehong Zhang, Zhuangzhuang Cui, Yu Ou-Yang, Maobin Xie, Min Zheng, Xueyu Guan, Lijun Wu, Xinglei Zhou, et al.

  • Year: 2022

  • DOI: 10.1364/OL.446752

  • Source: Optics Letters

7. Title: “Gallium Doping-Assisted Giant Photoluminescence Enhancement of Monolayer MoS₂ Grown by Chemical Vapor Deposition”

  • Authors: Bo Liu, Ying Chen, Chao Ma, Ying Jiang, Danliang Zhang, Zheyuan Xu, Ziyu Luo, Huawei Liu, Junyu Qu, Xin Yang, et al.

  • Year: 2022

  • DOI: 10.1063/5.0096169

  • Source: Applied Physics Letters

8. Title: “Infrared Photodetector Based on 2D Monoclinic Gold Phosphide Nanosheets Yielded from One-Step Chemical Vapor Transport Deposition”

  • Authors: Yushuang Zhang, Jie Chen, Cheng Chen, Tengfei Xu, Heng Gao, Zhuo Dong, Yan Zhang, Chang Li, Qiang Yu, Wenzhi Yu, et al.

  • Year: 2022

  • DOI: 10.1063/5.0086166

  • Source: Applied Physics Letters

Yongzhi Wang | Information Security | Best Scholar Award

Published on by WSA Awards

Dr. Yongzhi Wang | Information Security | Best Scholar Award

Assistant Professor of Texas A&M University-Corpus Christi, United States .

Dr. Yongzhi Wang is an accomplished computer scientist and educator with a robust background in cloud computing, cybersecurity, and blockchain technologies. He currently serves as an Assistant Professor at Texas A&M University at Corpus Christi, where he conducts cutting-edge research, teaches computer science courses, and mentors students in academic and research pursuits. Dr. Wang’s academic journey includes significant roles at Park University and Xidian University, where he contributed to research initiatives and academic programs. He holds a Ph.D. and M.S. in Computer Science from Florida International University, with a focus on secure outsourced computing frameworks in cloud environments. Throughout his career, Dr. Wang has received prestigious awards, including the Distinguished Faculty Scholar Award and Best Paper Award, recognizing his exceptional scholarship and research contributions. His research interests encompass cloud computing security, blockchain applications, cybersecurity, and virtualized lab environments for computer education. Dr. Wang’s passion for advancing secure computing technologies and nurturing future computer scientists underscores his leadership and impact in the field of computer science.

Professional Profiles:

Education

Dr. Yongzhi Wang has pursued an extensive academic journey, culminating in advanced degrees in computer science from prestigious institutions. He earned his Doctor of Philosophy (Ph.D.) and Master of Science (M.S.) degrees in Computer Science from Florida International University in Miami, Florida, U.S.A., with a focus on secure outsourced computing frameworks in cloud environments. Dr. Wang also holds a Master of Engineering (M.Eng.) in Computer Science from Xidian University in China and a Bachelor of Engineering (B.Eng.) in Computer Science from the same institution. Throughout his academic career, Dr. Wang demonstrated exceptional academic prowess, reflected in his high academic achievements with a GPA of 3.91 for both his Ph.D. and M.S. degrees. His educational background underscores his expertise in computer science, particularly in areas related to cloud computing, cybersecurity, and advanced technologies. Dr. Wang’s academic foundation has positioned him as a leading researcher and educator in the field of computer science.

Professional Experience

Dr. Yongzhi Wang has amassed a wealth of professional experience across academia, research, and industry, reflecting his deep expertise in computer science and related disciplines. He currently serves as an Assistant Professor at Texas A&M University at Corpus Christi, where he conducts cutting-edge research, teaches computer science courses, and mentors students in academic and research endeavors. Prior to this role, Dr. Wang held positions as an Associate Professor and Assistant Professor at Park University, contributing significantly to research initiatives and academic programs. Before his academic appointments, Dr. Wang served as an Assistant Professor at Xidian University in China, where he conducted research, taught courses, and supervised graduate students. His professional journey also includes roles as a Research Assistant and Teaching Assistant at Florida International University and as a Staff Software Engineer at IBM, where he applied his technical expertise in software development and project management. Dr. Wang’s diverse professional background underscores his leadership, dedication, and impact in advancing computer science education, research, and innovation.

Research Interest

Dr. Yongzhi Wang’s research interests span several critical areas in computer science and related disciplines. His primary focus includes cloud computing and security, where he explores secure computing frameworks and protocols to address data privacy and integrity challenges in cloud environments. Dr. Wang is also engaged in research on blockchain technologies, investigating their applications in enhancing security and transparency across various industries. Another significant aspect of Dr. Wang’s research is cybersecurity, encompassing threat detection, risk management, and intrusion detection systems to safeguard critical infrastructures from cyber threats. He also delves into big data and data privacy, developing techniques for preserving data privacy and ensuring the integrity of sensitive information in large-scale data environments. Moreover, Dr. Wang’s interest extends to virtualized lab environments for computer education, aiming to enhance practical learning experiences and accessibility to computing resources. Through his research, Dr. Wang contributes to advancing secure and efficient computing technologies, addressing contemporary challenges in the digital age.

Award and Honors

Dr. Yongzhi Wang’s exemplary contributions to computer science have been recognized through prestigious awards and honors throughout his career. Notably, his research article was acknowledged as a Trending Article in IEEE Transactions on Computers, reflecting the relevance and impact of his work in the field. He was also honored with the Distinguished Faculty Scholar Award at Park University, recognizing his outstanding scholarship and academic contributions. In addition, Dr. Wang received the Best Paper Award at the 2017 International Conference on Networking and Network Applications for his significant research achievements. His excellence in teaching was acknowledged with a second-place finish in the Faculty Teaching Competition at Xidian University. Furthermore, he was awarded the Dissertation Year Fellowship at Florida International University in recognition of his exceptional doctoral research. These accolades highlight Dr. Wang’s dedication to advancing computer science through innovative research, teaching excellence, and scholarly pursuits, solidifying his reputation as a leader in the field.

Research Skills

Dr. Yongzhi Wang’s distinguished career in computer science has been marked by several prestigious awards and honors that underscore his outstanding contributions to the field. Notably, his research article was recognized as a Trending Article in IEEE Transactions on Computers, demonstrating the impact and relevance of his work within the academic community. Additionally, Dr. Wang received the esteemed Distinguished Faculty Scholar Award at Park University, acknowledging his exceptional scholarship and academic leadership. Further highlighting his research excellence, Dr. Wang was honored with the Best Paper Award at the 2017 International Conference on Networking and Network Applications for his significant contributions to the field. His dedication to teaching was also celebrated with a second-place finish in the Faculty Teaching Competition at Xidian University. Moreover, his exceptional doctoral research was recognized with the Dissertation Year Fellowship at Florida International University. These accolades reflect Dr. Wang’s commitment to advancing computer science through innovative research, teaching excellence, and scholarly achievements, positioning him as a distinguished leader in the field.

Publications

  1. Microthings: A generic IoT architecture for flexible data aggregation and scalable service cooperation
    Authors: Y. Shen, T. Zhang, Y. Wang, H. Wang, X. Jiang
    Year: 2017
    Citations: 76
  2. Viaf: Verification-based integrity assurance framework for MapReduce
    Authors: Y. Wang, J. Wei
    Year: 2011
    Citations: 76
  3. Secure -NN Query on Encrypted Cloud Data with Multiple Keys
    Authors: K. Cheng, L. Wang, Y. Shen, H. Wang, Y. Wang, X. Jiang, H. Zhong
    Year: 2017
    Citations: 71
  4. Special issue on security and privacy in network computing
    Authors: H. Wang, Y. Wang, T. Taleb, X. Jiang
    Year: 2020
    Citations: 69
  5. MTMR: Ensuring MapReduce computation integrity with Merkle tree-based verifications
    Authors: Y. Wang, Y. Shen, H. Wang, J. Cao, X. Jiang
    Year: 2016
    Citations: 46
  6. Result integrity check for MapReduce computation on hybrid clouds
    Authors: Y. Wang, J. Wei, M. Srivatsa
    Year: 2013
    Citations: 30
  7. IntegrityMR: Integrity assurance framework for big data analytics and management applications
    Authors: Y. Wang, J. Wei, M. Srivatsa, Y. Duan, W. Du
    Year: 2013
    Citations: 28
  8. CryptSQLite: SQLite with high data security
    Authors: Y. Wang, Y. Shen, C. Su, J. Ma, L. Liu, X. Dong
    Year: 2019
    Citations: 19
  9. Strongly secure and efficient range queries in cloud databases under multiple keys
    Authors: K. Cheng, Y. Shen, Y. Wang, L. Wang, J. Ma, X. Jiang, C. Su
    Year: 2019
    Citations: 18
  10. Trustworthy service composition with secure data transmission in sensor networks
    Authors: T. Zhang, L. Zheng, Y. Wang, Y. Shen, N. Xi, J. Ma, J. Yong
    Year: 2018
    Citations: 15

 

Malik Ashtar | Optoelectronic Materials | Best Researcher Award

Published on by WSA Awards

Dr. Malik Ashtar | Optoelectronic Materials | Best Researcher Award

Postdoc Fellow of Jiangsu University, China .

Dr. Malik Ashtar is a skilled researcher specializing in condensed matter physics and materials science. He earned his Ph.D. in Condensed Matter Physics from Huazhong University of Science and Technology (HUST), focusing on rare-earth-based frustrated magnets. Dr. Ashtar’s research interests include geometrically frustrated magnetic quantum systems, correlated electron materials, and optoelectronic devices. Currently a post-doctoral fellow at Jiangsu University, Dr. Ashtar is enhancing the performance of ferroelectric-based photodetectors for self-powered operation. He received prestigious awards such as the China Government Scholarship for academic excellence. Dr. Ashtar’s expertise spans experimental techniques, magnetic and optical measurements, computational modeling, and data analysis. With a passion for scientific exploration and a commitment to advancing knowledge, Dr. Ashtar contributes significantly to the field of condensed matter physics, bridging fundamental research with practical applications in materials science.

Professional Profiles:

Education

Dr. Malik Ashtar has achieved significant milestones in his academic journey, culminating in a Ph.D. in Condensed Matter Physics from Huazhong University of Science and Technology (HUST) completed between 2017 and 2021. His doctoral research centered on the synthesis, structure, and magnetic properties of novel rare-earth-based frustrated magnets, contributing to the advancement of magnetic materials science. Prior to his Ph.D., Dr. Ashtar earned a Master of Science degree in Condensed Matter Physics from Air University Islamabad, where he conducted research under the guidance of Prof. Dr. Asghari Maqsood. His educational background also includes a Master of Science in General Physics from Abdul Wali Khan University Mardan and a Bachelor of Science degree from the University of Peshawar. Dr. Ashtar’s academic trajectory reflects his specialization and expertise in condensed matter physics, particularly in the areas of magnetic quantum systems and correlated electron materials.

Professional Experience

Dr. Malik Ashtar has accumulated valuable professional experience in the field of condensed matter physics through his research positions and academic roles. Currently serving as a post-doctoral fellow in the Department of Physics and Electronic Engineering at Jiangsu University (since 2022), Dr. Ashtar focuses on enhancing the performance of ferroelectric-based photodetectors for self-powered operation under the supervision of Prof. Cao Dawie. Previously, he served as a graduate research assistant at Air University Islamabad (2014-2015), conducting research under Prof. Asghari Maqsood in the area of condensed matter physics, likely specializing in geometrically frustrated magnetic quantum systems and correlated electron materials. Dr. Ashtar’s professional journey underscores his expertise in optoelectronic materials and devices, as well as his dedication to advancing scientific knowledge through research and academic pursuits.

Research Interest

Dr. Malik Ashtar’s research interests encompass a diverse range of topics within condensed matter physics and optoelectronic materials. He is particularly focused on studying geometrically frustrated magnetic quantum systems to understand unique magnetic behaviors arising from competing interactions. Additionally, Dr. Ashtar explores the magnetocaloric effect in rare-earth based magnetic materials for potential applications in energy-efficient cooling technologies. His research extends to correlated quantum spin systems, metallic magnetic materials, and multiferroic materials exhibiting coupled magnetic and ferroelectric properties. Currently, he is dedicated to enhancing the performance of ferroelectric-based photodetectors for self-powered operation, aiming to optimize their sensitivity and efficiency for optical sensing applications. Dr. Ashtar’s interdisciplinary approach integrates theoretical investigations, materials synthesis, and advanced characterization techniques, contributing to the advancement of fundamental understanding and technological development in condensed matter physics and materials science.

Award and Honors

Dr. Malik Ashtar has received notable awards and honors, including the China Government Scholarship (CGS/CSC) for his doctoral studies at Huazhong University of Science and Technology (HUST), showcasing his academic excellence and research potential. He was also recognized with Academic Excellence Awards during his doctoral tenure at HUST. Prior to his Ph.D., Dr. Ashtar received a Postgraduate Scholarship from Air University Islamabad for his outstanding performance in the Master’s program, where he was awarded a Gold Medal for academic excellence. These accolades highlight Dr. Ashtar’s exceptional dedication to condensed matter physics and optoelectronic materials research. His achievements underscore his commitment to advancing scientific knowledge and academic excellence. Dr. Ashtar’s contributions to the field are recognized both nationally and internationally, reflecting his leadership and expertise in the realm of condensed matter physics and materials science.

Research Skills

Dr. Malik Ashtar possesses a wide range of research skills essential for conducting innovative studies in condensed matter physics and materials science. He is proficient in advanced experimental techniques, including X-ray Diffraction (XRD) and Scanning Electron Microscopy (SEM), for structural characterization of materials. Dr. Ashtar is skilled in magnetic measurements using tools such as the Physical Property Measurement System (PPMS) and SQUID magnetometer, allowing precise investigation of magnetic properties at low temperatures. He also has expertise in optical measurements using UV-Vis-NIR spectrophotometry and source-measure units for studying optical properties. In addition to experimental skills, Dr. Ashtar is proficient in computational techniques, utilizing VASP for first principle calculations and simulation of material properties. His strong data analysis capabilities using software like GSAS, Materials Studio, and Origin enable thorough interpretation and presentation of research findings. Dr. Ashtar’s comprehensive skill set empowers him to tackle complex research challenges and contribute to advancements in condensed matter physics through interdisciplinary collaborations and innovative problem-solving approaches.

Publications

  1. Publication Title: “Polymer matrix nanocomposites with 1D ceramic nanofillers for energy storage capacitor applications”
    • Authors: H Zhang, MA Marwat, B Xie, M Ashtar, K Liu, Y Zhu, L Zhang, P Fan, …
    • Journal: ACS applied materials & interfaces 12 (1), 1-37
    • Year: 2019
    • Citations: 168
  2. Publication Title: “Advanced catalysts for photoelectrochemical water splitting”
    • Authors: MA Marwat, M Humayun, MW Afridi, H Zhang, MR Abdul Karim, M Ashtar, …
    • Journal: ACS Applied Energy Materials 4 (11), 12007-12031
    • Year: 2021
    • Citations: 96
  3. Publication Title: “Largely enhanced discharge energy density in linear polymer nanocomposites by designing a sandwich structure”
    • Authors: MA Marwat, B Xie, Y Zhu, P Fan, W Ma, H Liu, M Ashtar, J Xiao, …
    • Journal: Composites Part A: Applied Science and Manufacturing 121, 115-122
    • Year: 2019
    • Citations: 74
  4. Publication Title: “Sandwich structure-assisted significantly improved discharge energy density in linear polymer nanocomposites with high thermal stability”
    • Authors: MA Marwat, B Xie, Y Zhu, P Fan, K Liu, M Shen, M Ashtar, S Kongparakul, …
    • Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects 581, 123802
    • Year: 2019
    • Citations: 44
  5. Publication Title: “Effect of chromium substitution on the dielectric properties of mixed Ni-Zn ferrite prepared by WOWS sol–gel technique”
    • Authors: M Ashtar, A Munir, M Anis-ur-Rehman, A Maqsood
    • Journal: Materials Research Bulletin 79, 14-21
    • Year: 2016
    • Citations: 43
  6. Publication Title: “High remnant polarization, high dielectric constant and impedance performance of Nb/In Co-doped Bi0. 49La0. 01Na0. 49Li0. 01TiO3-δ ceramics”
    • Authors: MA Marwat, B Xie, M Ashtar, Y Zhu, P Fan, H Zhang
    • Journal: Ceramics International 44 (6), 6843-6850
    • Year: 2018
    • Citations: 27
  7. Publication Title: “A New Family of Disorder-Free Rare-Earth-Based Kagome Lattice Magnets: Structure and Magnetic Characterizations of RE3BWO9 (RE = Pr, Nd, Gd–Ho …”
    • Authors: M Ashtar, J Guo, Z Wan, Y Wang, G Gong, Y Liu, Y Su, Z Tian
    • Journal: Inorganic Chemistry 59 (8), 5368-5376
    • Year: 2020
    • Citations: 26
  8. Publication Title: “REZnAl 11 O 19 (RE= Pr, Nd, Sm–Tb): a new family of ideal 2D triangular lattice frustrated magnets”
    • Authors: M Ashtar, MA Marwat, YX Gao, ZT Zhang, L Pi, SL Yuan, ZM Tian
    • Journal: Journal of Materials Chemistry C 7 (32), 10073-10081
    • Year: 2019
    • Citations: 24
  9. Publication Title: “Structure and Magnetic Properties of Melilite-Type Compounds RE2Be2GeO7 (RE = Pr, Nd, Gd–Yb) with Rare-Earth Ions on Shastry–Sutherland Lattice”
    • Authors: ZT Malik Ashtar, Yuming Bai, Longmeng Xu, Zongtang Wan, Zijun Wei, Yong Liu …
    • Journal: Inorganic Chemistry 60 (6), 3626–3634
    • Year: 2021
    • Citations: 16
  10. Publication Title: “Field pulse induced magnetic memory effect at room temperature in exchange coupled NiFe2O4/NiO nanocomposites”
    • Authors: L Xu, Y Gao, A Malik, Y Liu, G Gong, Y Wang, Z Tian, S Yuan
    • Journal: Journal of Magnetism and Magnetic Materials 469, 504-509
    • Year: 2019
    • Citations: 13