Tag: Green Materials Development Award

Xuanhua Li | Materials Science | Best Researcher Award

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Prof. Xuanhua Li | Materials Science | Best Researcher Award

Group Leader at Northwestern Polytechnical University, China

Xuanhua Li is a distinguished professor and project leader at Northwestern Polytechnical University (NPU), China. His research focuses on advanced materials, particularly 2D materials, photocatalytic water splitting, and perovskite solar cells. With a prolific publication record in prestigious journals such as Science, Nature Energy, Nature Communications, and Science Advances, he has established himself as a leading researcher in materials science and renewable energy. His innovative contributions to high-efficiency solar cells, photocatalysis, and energy conversion systems have gained national and international recognition. As a fellow of the International Union of Materials Research Societies and a recipient of multiple youth talent support programs, he has demonstrated strong leadership in his field. His work is characterized by groundbreaking advancements in optoelectronics, energy materials, and nanotechnology.

Professional Profile

Education

Xuanhua Li holds a Bachelor’s degree in Materials Science from Wuhan University of Technology (2003–2007). He earned his Master’s degree in ChemistryfromPh.D. in Optoelectronics at the University of Hong Kong (2010–2014), where he specialized in advanced materials and energy conversion technologies. His academic journey reflects a strong foundation in multidisciplinary research, integrating materials science, chemistry, and optoelectronics to address challenges in sustainable energy solutions.

Professional Experience

Since 2014, Xuanhua Li has been a Professor at Northwestern Polytechnical University (NPU), Xi’an, China, where he leads innovative research in materials science. In 2019, he took on the role of Project Leader and Group Leader at the Center of Nano Energy and Materials at NPU, where he directs cutting-edge research on energy materials and nanotechnology. His leadership has contributed significantly to the advancement of photocatalysis, perovskite solar cells, and nanomaterials for energy applications. His professional experience includes mentoring young researchers, securing competitive research funding, and collaborating with international scientists to push the boundaries of renewable energy research.

Research Interests

Xuanhua Li’s research interests center on the design and fabrication of 2D materials, photocatalytic water splitting, and perovskite solar cells. His work focuses on developing highly efficient and stable materials for solar energy conversion and hydrogen production. He explores innovative techniques to enhance the performance of perovskite solar cells, quantum efficiency in photocatalysis, and hydrovoltaic energy systems. His interdisciplinary research integrates nanotechnology, chemistry, and materials engineering to solve challenges in sustainable energy generation and storage. His work contributes to the development of next-generation renewable energy solutions with potential applications in clean energy and environmental sustainability.

Research Skills

Xuanhua Li possesses expertise in materials synthesis, nanofabrication, and advanced characterization techniques. His skills include photocatalysis, thin-film deposition, optoelectronic device fabrication, and energy conversion efficiency analysis. He is proficient in spectroscopy, electron microscopy, and electrochemical testing, which are crucial for evaluating the properties and performance of nanomaterials. His ability to integrate experimental and computational approaches allows him to develop novel materials with enhanced functionalities. His strong analytical skills and deep understanding of optoelectronic materials and energy harvesting systems enable him to design high-performance solar cells and hydrogen production technologies.

Awards and Honors

Xuanhua Li has received several prestigious recognitions for his contributions to materials science. He is a Fellow of the International Union of Materials Research Societies, an honor that highlights his leadership in the field. He has been selected for the National Youth Talent Support Program and the Youth Talent Support Program in Shaanxi, China, acknowledging his exceptional research achievements. Additionally, he is a recipient of the National Science Fund for Distinguished Young Scholars in Shaanxi, China, which supports outstanding young scientists conducting groundbreaking research. These accolades reflect his scientific excellence, research impact, and leadership in the field of advanced energy materials.

Conclusion

Xuanhua Li is a highly accomplished researcher in the field of materials science, with a strong emphasis on renewable energy applications. His prolific publication record, leadership in high-impact research, and recognition through national and international awards establish him as a leading scientist. His expertise in 2D materials, photocatalysis, and perovskite solar cells contributes to the development of sustainable energy technologies. While his research output is exceptional, expanding his industrial collaborations and mentorship initiatives could further enhance his profile. Overall, his contributions make him a strong candidate for prestigious research awards in the field of materials science and energy research.

Publication To Notes

  1. Title: “Tailoring the Configuration of Polymer Passivators in Perovskite Solar Cells”

      • Authors: Yaohua Li, Qi Cao, Xuanhua Li
      • Year: 2024
      • Journal: Chinese Journal of Structural Chemistry
      • DOI: 10.1016/j.cjsc.2024.100413

  2. Title: “Enhanced Corrosion Resistance of Ag Electrode Through Ionized 2‐Mercaptobenzothiazole in Inverted Perovskite Solar Cells”

    • Authors: Yaohua Li, Xilai He, Ruiqi Zhu, Xingyuan Chen, Tong Wang, Xingyu Pu, Hui Chen, Qi Cao, Xuanhua Li
    • Year: 2024
    • Journal: Advanced Functional Materials
    • DOI: 10.1002/adfm.202413245

  3. Title: “Locking Organic Solvents by Crystallization-Induced Polymer Network”

    • Authors: Jinmeng Zhu, Jinghan Ding, Yuke Li, Zhang He, Zhenzhen Ma, Wenqiang Dong, Xichen Zhao, Xuanhua Li
    • Year: 2024
    • Journal: Construction and Building Materials
    • DOI: 10.1016/j.conbuildmat.2024.138844

  4. Title: “π-Interactions Suppression of Buried Interface Defects for Efficient and Stable Inverted Perovskite Solar Cells”

    • Authors: Hui Chen, Jiabao Yang, Qi Cao, Tong Wang, Xingyu Pu, Xilai He, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Nano Energy
    • DOI: 10.1016/j.nanoen.2023.108883

  5. Title: “One‐Step Construction of a Perovskite/TiO₂ Heterojunction Toward Highly Stable Inverted All‐Layer‐Inorganic CsPbI₂Br Perovskite Solar Cells with 17.1% Efficiency”

    • Authors: Xingyu Pu, Qi Cao, Jie Su, Jiabao Yang, Tong Wang, Yixin Zhang, Hui Chen, Xilai He, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Advanced Energy Materials
    • DOI: 10.1002/aenm.202301607

  6. Title: “Internal Quantum Efficiency Higher Than 100% Achieved by Combining Doping and Quantum Effects for Photocatalytic Overall Water Splitting”

    • Authors: Youzi Zhang, Yuke Li, Xu Xin, Yijin Wang, Peng Guo, Ruiling Wang, Bilin Wang, Wenjing Huang, Ana Jorge Sobrido, Xuanhua Li
    • Year: 2023
    • Journal: Nature Energy
    • DOI: 10.1038/s41560-023-01242-7

  7. Title: “Hydrovoltaic Effect-Enhanced Photocatalysis by Polyacrylic Acid/Cobaltous Oxide–Nitrogen Doped Carbon System for Efficient Photocatalytic Water Splitting”

    • Authors: Xu Xin, Youzi Zhang, Ruiling Wang, Yijin Wang, Peng Guo, Xuanhua Li
    • Year: 2023
    • Journal: Nature Communications
    • DOI: 10.1038/s41467-023-37366-3

  8. Title: “Room Temperature Nondestructive Encapsulation via Self-Crosslinked Fluorosilicone Polymer Enables Damp Heat-Stable Sustainable Perovskite Solar Cells”

    • Authors: Tong Wang, Jiabao Yang, Qi Cao, Xingyu Pu, Yuke Li, Hui Chen, Junsong Zhao, Yixin Zhang, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Nature Communications
    • DOI: 10.1038/s41467-023-36918-x

  9. Title: “Single-Atom Iridium on Hematite Photoanodes for Solar Water Splitting: Catalyst or Spectator?”

    • Authors: Qian Guo, Qi Zhao, Rachel Crespo-Otero, Devis Di Tommaso, Junwang Tang, Stoichko D. Dimitrov, Maria-Magdalena Titirici, Xuanhua Li, Ana Belén Jorge Sobrido
    • Year: 2023
    • Journal: Journal of the American Chemical Society
    • DOI: 10.1021/jacs.

Guang Chen | Materials Science | Academician/Research Scholar |

Published on by WSA Awards

Prof. Dr Guang Chen | Materials Science | Academician/Research Scholar

University Professor from Nanjing University of Science and Technology,china

Prof. Chen Guang is a distinguished academician of the Chinese Academy of Sciences and a Professor at Nanjing University of Science and Technology, where he also serves as a doctoral supervisor. He is a representative of the 14th Jiangsu Provincial People’s Congress and enjoys the special allowance of the State Council. Prof. Chen is the Director of multiple research centers, including the Jiangsu Hundred Refining Laboratory and the Key Laboratory of Advanced Metal and Intermetallic Compound Materials Technology.

His research focuses on metal materials and processing science, with significant contributions to lightweight heat-resistant intermetallic compounds, high-temperature alloy solidification, and amorphous composites. He has published over 200 academic papers, authored three monographs, and holds 86 patents. His accolades include the National Innovation Prize, the National May 1st Labor Medal, and multiple provincial and ministerial scientific awards. Prof. Chen remains a leading figure in advanced materials research and engineering applications. 🚀🔬

Professional Profile

Education

Prof. Chen Guang pursued his undergraduate, master’s, and doctoral degrees in materials science and engineering from top institutions in China. His academic journey was marked by excellence, with a strong focus on metallurgy, material processing, and advanced material technologies. His doctoral research laid the foundation for his later work in lightweight heat-resistant intermetallic compounds and high-temperature alloy processing. After obtaining his Ph.D., he engaged in postdoctoral research in renowned material science laboratories, further refining his expertise in metal processing, composite materials, and nanostructured alloys. Over the years, he has also participated in advanced research training programs and international collaborations, enhancing his knowledge in computational material design, additive manufacturing, and advanced metallurgy. His academic background provides a strong theoretical and technical foundation for his contributions to both fundamental and applied materials science.

Professional Experience

Prof. Chen has built a distinguished academic and professional career as a professor, researcher, and scientific leader. He currently serves as a Professor & Doctoral Supervisor at Nanjing University of Science and Technology, where he mentors Ph.D. and master’s students in materials science and engineering. In addition, he leads multiple research centers, including the Jiangsu Hundred Refining Laboratory and the Key Laboratory of Advanced Metal and Intermetallic Compound Materials Technology. His work focuses on developing new materials, optimizing metal processing techniques, and advancing industrial applications. As a policy advisor and representative of the Jiangsu Provincial People’s Congress, he contributes to science and technology policymaking. Beyond academia, he collaborates with industries, helping bridge the gap between fundamental research and practical applications. His leadership in scientific organizations and participation in national research programs further demonstrate his commitment to advancing China’s materials science sector.

Research Interests

Prof. Chen Guang’s research interests center on advanced metal materials and processing technologies. His primary focus is on lightweight heat-resistant intermetallic compounds, which have significant applications in aerospace, automotive, and high-temperature industries. He also specializes in high-temperature alloy directional solidification, a technique that enhances the durability and performance of materials used in extreme conditions. Additionally, he explores amorphous composites, which offer unique mechanical properties and are crucial for advanced engineering applications. His work in steel processing has contributed to the development of high-strength, corrosion-resistant materials for infrastructure and manufacturing. Prof. Chen is also interested in computational material design, using artificial intelligence and machine learning to optimize material properties and production methods. His research has direct applications in industrial manufacturing, defense, energy, and biomedical engineering, making significant contributions to technological advancements and sustainability in materials science.

Research Skills

Prof. Chen Guang possesses an extensive skill set in materials synthesis, characterization, and processing. His expertise includes high-temperature alloy fabrication, intermetallic compound development, and steel processing technologies. He is proficient in directional solidification techniques, enabling the controlled growth of crystalline structures for enhanced material properties. His skills in computational materials science allow him to use machine learning and simulation tools for predicting and optimizing material performance. Additionally, he has extensive experience in thin-film deposition, nanomaterials synthesis, and advanced spectroscopy techniques. His knowledge in mechanical testing, failure analysis, and corrosion resistance studies contributes to improving material durability and efficiency. Prof. Chen is also skilled in patent development and technology transfer, ensuring that his research findings are successfully applied in industrial settings. His ability to integrate fundamental research with engineering applications makes him a leading expert in the field of materials science and metallurgy.

Awards and Honors

Prof. Chen Guang has received numerous prestigious awards in recognition of his outstanding contributions to materials science. He was honored with the National Innovation Prize, one of China’s highest awards for scientific achievement, and the National May 1st Labor Medal, recognizing his dedication to technological advancements. He has also won two National Teaching Achievement Awards, highlighting his excellence in mentoring and education. Additionally, he has received 29 scientific and technological awards at the provincial and ministerial levels, including the Jiangsu Provincial Patent Inventor Award. His contributions to academia and industry have earned him titles such as Outstanding Contributions to Young and Middle-Aged Experts, Advanced Individual Returning from Abroad, and Excellent Scientific and Technological Worker. These accolades demonstrate his profound impact on research, education, and industrial applications, reinforcing his position as a leader in the field of materials science and engineering.

Conclusion

Prof. Chen Guang is a highly accomplished researcher, educator, and innovator in the field of materials science and engineering. His extensive scientific contributions, leadership roles, and numerous accolades highlight his profound impact on academia, industry, and policymaking. With a career spanning groundbreaking research in lightweight intermetallic compounds, high-temperature alloys, and advanced steel processing, he has significantly advanced both fundamental knowledge and industrial applications. His strong research skills, international collaborations, and leadership in major research centers further solidify his influence in the scientific community. While he has achieved remarkable national recognition, expanding his global collaborations and industrial ventures could further enhance his impact. Overall, Prof. Chen Guang is an exceptional candidate for the Best Researcher Award, given his unparalleled achievements, dedication to scientific advancement, and contributions to technology and education. 🏆

Publication Top Noted

  1. Splitting behavior of lamella

    • Authors: J. Zhuo, Jicheng; Y. Chen, Yang; Z. Zhang, Zan; Y. Li, Yongsheng; G. Chen, Guang
    • Journal: Next Materials

  2. Regulating phase ratios and mechanical properties of polysynthetic twinned TiAl single crystals via annealing

    • Authors: L. Kong, Lingwei; Z. Xing, Zhibin; F. Chen, Fengrui; G. Chen, Guang; Y. Tian, Yongjun
    • Journal: Journal of Materials Science and Technology

  3. Particle size gradation design and performance enhancement of quartz cores for precision casting

    • Authors: Y. Peng, Yonghui; W. Zhou, Wentao; G. Chen, Guang; B. Kou, Baohong; J. Ouyang, Jing
    • Journal: Journal of the American Ceramic Society

  4. Determination of the equivalent friction coefficient of rolling bearings using the kinetic energy dissipation

    • Authors: P. Wu, Panlong; C. He, Chunlei; G. Chen, Guang; C. Ren, Chengzu
    • Journal: Measurement

  5. Effects of yttria doping on the interfacial reaction between barium zirconate ceramics and TiAl alloy melt (Open Access)

    • Authors: Y. Shen, Yun; D. Hong, Du; T. Sun, Tianfang; Y. Niu, Yaran; G. Chen, Guang
    • Journal: Journal of Asian Ceramic Societies

  6. A predictive model for tool wear behavior during ultra-precision lapping (Open Access)

    • Authors: C. Wei, Changxu; C. He, Chunlei; H. Tan, Helong; Y. Sun, Yongquan; C. Ren, Chengzu
    • Journal: International Journal of Advanced Manufacturing Technology

2024 Publications

  1. An Investigation of the Effects of Cutting Edge Geometry and Cooling/Lubrication on Surface Integrity in Machining of Ti-6Al-4V Alloy (Open Access)

    • Authors: J.R. Caudill, James R.; R. Sarvesha, R.; G. Chen, Guang; I.S. Jawahir, I.S.
    • Journal: Journal of Manufacturing and Materials Processing

  2. Finite Element Simulation of Ti-6Al-4V Alloy Machining with a Grain-Size-Dependent Constitutive Model Considering the Ploughing Effect Under MQL and Cryogenic Conditions (Open Access)

    • Authors: G. Chen, Guang; Z. Wu, Zhuoyang; J.R. Caudill, James R.; I.S. Jawahir, I.S.
    • Journal: Journal of Manufacturing and Materials Processing

  3. Microstructure-dependent deformation mechanisms and fracture modes of gradient porous NiTi alloys

    • Authors: Y. Zhang, Yintao; L. Wang, Liqiang; C. Lan, Changgong; W. Lü, Weijie; G. Chen, Guang
    • Journal: Materials and Design
    • Citations: 3

  4. Non-negligible role of gradient porous structure in superelasticity deterioration and improvement of NiTi shape memory alloys

  • Authors: Y. Zhang, Yintao; D. Wei, Daixiu; Y. Chen, Yang; W. Lü, Weijie; G. Chen, Guang
  • Journal: Journal of Materials Science and Technology
  • Citations: 25