Peng Tang | Energy | Best Researcher Award

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Dr. Peng Tang | Energy | Best Researcher Award

Sichuan University of Science & Engineering, China

Dr. Peng Tang is a dedicated and multidisciplinary researcher in the field of physical chemistry and electrochemical engineering, with a proven track record in advanced materials research and energy storage systems. His career has been marked by impactful contributions to alkali metal batteries, corrosion protection, and hydrogen storage technologies. Having conducted research in leading institutions across China, Japan, and the United States, Dr. Tang has cultivated a robust international research profile. He is widely recognized for his ability to combine theoretical modeling with experimental electrochemical techniques to develop innovative solutions in energy and materials science. His work has led to numerous peer-reviewed publications, patents, and scholarly presentations at international conferences. In addition to academic excellence, he is highly committed to mentoring students, promoting scientific exchange, and fostering collaborations across disciplines. Dr. Tang’s research is driven by innovation and a deep interest in solving real-world energy challenges through sustainable and efficient technologies.

Professional Profile

Education

Dr. Peng Tang has pursued a strong academic path rooted in chemical engineering and physical chemistry. He began his education at Tianjin University of Science & Technology, where he earned his Bachelor of Engineering degree in Chemical Engineering & Technology (2008–2012) under the guidance of Professors Shiqiang Wang and Tianlong Deng. He continued at the same university to complete his Master of Science in Chemical Engineering (2012–2015), working with Professor Zuoliang Sha on advanced functional materials and their applications. His academic journey culminated in a Ph.D. in Physic-Chemistry from the University of Fukui, Japan (2017–2020), under the joint supervision of Professors Jingyuan Chen and Koichi Aoki. His doctoral research focused on electroanalytical chemistry, including voltammetric analysis and the study of micro-particle behavior. This rigorous academic training equipped him with both theoretical insights and hands-on laboratory expertise, forming the foundation for his current research in energy storage and environmental electrochemistry.

Professional Experience

Dr. Peng Tang has acquired a diverse and rich professional background through positions held in both academia and industry. Currently, he serves as a researcher at Sichuan University of Science and Engineering (2022–present), where he leads projects on alkali metal batteries and corrosion-resistant materials. Prior to this, he completed multiple postdoctoral fellowships abroad. At the University of Arkansas (2022), under Prof. Xiangbo Meng, he explored advanced lithium and sodium-ion battery architectures. He also worked at the University of Pittsburgh (2021–2022) with Prof. Shigeru Amemiya on scanning electrochemical microscopy, and at the University of Ibaraki (2020–2021) with Prof. Kazuyuki Kita on aerosol particle characterization. His experience includes industrial engineering work on hydrogen storage at Hangzhou Hydrogen Sources and Tianjin Highland Energy Technology (2015–2016). He also briefly worked as a temporary researcher at Peking University (2014–2015) under Prof. Xingguo Li. These varied roles reflect his adaptability and multidisciplinary expertise.

Research Interest

Dr. Peng Tang’s research interests span several critical domains in energy and materials science. He is particularly focused on the development and characterization of advanced alkali metal batteries, such as lithium and sodium-ion systems, with an emphasis on optimizing cathode materials and surface engineering. Another core area of his work involves electrochemical methods for corrosion protection and environmental monitoring. He has also conducted in-depth studies on aerosol particles, micro-particle behavior, and radionuclide transport, especially in post-Fukushima contamination contexts. Furthermore, his early career included work on hydrogen storage, exploring both solid-state and gas-phase mechanisms. Dr. Tang is driven by a desire to solve real-world sustainability challenges through electrochemical innovation and advanced material synthesis. He often collaborates internationally to integrate multidisciplinary techniques, including atomic layer deposition, scanning electrochemical microscopy, and impedance spectroscopy. His research reflects a strong commitment to bridging the gap between laboratory-based science and industrial-scale applications.

Research Skills

Dr. Tang is equipped with a wide array of experimental and analytical skills in the field of physical and electrochemical sciences. He has advanced expertise in electrochemical characterization methods, including voltammetry, scanning electrochemical microscopy (SECM), and electrochemical impedance spectroscopy (EIS). He is proficient in surface and materials analysis, such as atomic/molecular layer deposition (ALD/MLD), spectroscopic techniques (UV-Vis, FTIR), and particle morphology assessment. His experience extends to working in cleanrooms and glovebox environments for battery and nanomaterial synthesis. Dr. Tang is also skilled in developing polymeric and ceramic composite materials for energy and environmental applications. His academic and industrial work has required the use of data modeling software and simulation tools for process optimization. Additionally, he has hands-on experience with hydrogen storage system design, including both experimental setup and theoretical modeling. His interdisciplinary skills enable him to bridge chemistry, engineering, and materials science with a high level of competence and precision.

Awards and Honors

Throughout his career, Dr. Peng Tang has received numerous recognitions that reflect his academic excellence and leadership in research. In 2017, he was awarded the Excellent Poster Prize at the 16th International Electroanalytical Chemistry Symposium in Changchun, China. His academic potential was further recognized in 2018 when he received an Emory University International Student Scholarship, supported by NICCA Chemical Co., Ltd. In recent years, his role as a mentor has been honored with the “Excellent Mentor Award” in both 2023 and 2024 for guiding student teams during China’s prestigious Chemical Engineering Design competitions. His active participation in academic exchange programs, such as the Sakura Program between Japan and China, highlights his commitment to cross-cultural academic enrichment. He has also delivered oral and poster presentations at international conferences and has authored several high-impact publications and patents. These accolades underscore Dr. Tang’s reputation as a dedicated researcher and mentor in his field.

Conclusion

Dr. Peng Tang exemplifies a well-rounded researcher who combines deep theoretical understanding with practical innovation in the fields of electrochemistry and material science. His extensive international research background, coupled with a consistent publication record and patent portfolio, highlights his contributions to advancing sustainable energy technologies. Through mentorship, interdisciplinary collaboration, and a strong commitment to scientific excellence, he has influenced both academic and professional communities. His future trajectory points toward leadership in global battery research, environmental electrochemistry, and materials engineering. With proven expertise, innovative thinking, and a drive for impactful research, Dr. Tang is a deserving candidate for recognition and awards. He continues to explore emerging challenges in clean energy and environmental safety, aiming to provide solutions that bridge science, industry, and societal benefit. His profile stands as a testament to academic rigor, collaborative spirit, and long-term vision in science and technology.

Publications Top Notes

  1. Synthesis and Properties of a New Environmentally Friendly Bicyclic Imidazoline Quaternary Ammonium Salt as a Corrosion Inhibitor of Carbon Steel
    Journal: Corrosion, 2025
    Authors: Xiaoping Qin, Zhaolin Xie, Yilin Li, Lei Chen, Peng Tang, Xiaonan Liu, Haiwei Lu, Lijie Xing, Xiaoyan Wang

  2. Synthesis and Performance Evaluation of a Novel Zwitterionic Quaternary Copolymer for Enhanced Oil‐Recovery Application
    Journal: SPE Polymers, 2024
    Authors: Xiaoping Qin, Zhaolin Xie, Peng Tang, Hui Yang, Cuixia Li, Xiaoliang Yang, Tong Peng

  3. Atmospheric Resuspension of Insoluble Radioactive Cesium-Bearing Particles Found in the Difficult-to-Return Area in Fukushima
    Journal: Progress in Earth and Planetary Science, 2022
    Authors: Peng Tang, et al.

  4. Atomic and Molecular Layer Deposition as Surface Engineering Techniques for Emerging Alkali Metal Rechargeable Batteries
    Journal: Molecules, 2022
    Authors: Peng Tang, Matthew Sullivan, Xiangbo Meng

  5. Atmospheric Resuspension of Insoluble Radioactive Cesium Particles Found in the Difficult-to-Return Area in Fukushima
    Preprint, 2021
    Authors: Peng Tang, Kazuyuki Kita, Yasuhito Igarashi, Yukihiko Satou, Koutarou Hatanaka, Kouji Adachi, Takeshi Kinase, Kazuhiko Ninomiya, Atsushi Shinohara

  6. Reduction Charge Smaller than the Deposited One in Cathodic Stripping Voltammograms of AgCl
    Journal: American Journal of Analytical Chemistry, 2019
    Authors: Peng Tang, Koichi Jeremiah Aoki, Jingyuan Chen

  7. Double Layer Impedance in Mixtures of Acetonitrile and Water
    Journal: Electroanalysis, 2018
    Authors: K.J. Aoki, J. Chen, P. Tang

  8. Capacitive Currents Flowing in the Direction Opposite to Redox Currents
    Journal: The Journal of Physical Chemistry C, 2018
    Authors: Koichi Jeremiah Aoki, Jingyuan Chen, Peng Tang

  9. Construction of Hybrid Z-Scheme Pt/CdS-TNTAs with Enhanced Visible-Light Photocatalytic Performance
    Journal: Applied Catalysis B: Environmental, 2015
    Authors: Zhu Y, Chen Z, Gao T, Huang Q, Niu F, Qin L, Tang P, Huang Y, Sha Z, Wang Y

  10. Visible Light Induced Photocatalysis on CdS Quantum Dots Decorated TiO₂ Nanotube Arrays
    Journal: Applied Catalysis A: General, 2015
    Authors: Zhu Y, Wang Y, Chen Z, Qin L, Yang L, Zhu L, Tang P, Gao T, Huang Y, Sha Z, et al.

Mohamed Saber | Energy | Best Researcher Award

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Mr. Mohamed Saber | Energy | Best Researcher Award

Lecturer Assistant from Zagazig University, Egypt

Mohammed Al-Desouky is a dedicated early-career researcher and civil hydraulic engineer currently serving as a Lecturer Assistant in the Department of Water and Water Structures Engineering at Zagazig University, Egypt. His academic and professional journey reflects a strong commitment to advancing sustainable hydraulic systems, energy harvesting technologies, and computational fluid dynamics (CFD) applications. Mohammed’s work integrates theoretical research with hands-on experimentation and simulation, making significant strides in optimizing hydraulic structures for renewable energy production. His notable contribution includes a publication in the high-impact journal Renewable Energy, where he introduced a novel design for pico-hydropower generation using Dethridge waterwheels. His work addresses real-world challenges in low-head energy generation systems and demonstrates both academic rigor and practical relevance. In addition to his academic responsibilities, he is actively engaged in professional engineering practices as a civil hydraulic engineer and co-founder of a construction company. Mohammed’s multidisciplinary expertise spans water resources engineering, structural analysis, fluid mechanics, and advanced CFD modeling. His diverse experience, technical proficiency, and innovative mindset position him as a valuable contributor to the fields of renewable energy and hydraulic engineering. While still early in his research career, he displays notable potential for future impact through expanded collaborations, further publications, and international academic engagement.

Professional Profile

Education

Mohammed Al-Desouky holds a Bachelor of Science (B.Sc.) degree in Civil Engineering from Zagazig University, Egypt, earned in 2019 with an outstanding academic record, graduating with an overall grade of “Excellent with Honor” (88.65%). His undergraduate studies provided a comprehensive foundation in structural mechanics, fluid dynamics, and water resources engineering. He is currently pursuing a Master of Science (M.Sc.) degree in Water and Water Structures Engineering at the same university, with an expected completion year of 2025. His master’s thesis, titled “Investigation of Energy Harvesting by Water Wheels at Low-head Heading up Structures,” reflects a focused research interest in renewable energy applications within hydraulic engineering. This work combines field experimentation with computational analysis to evaluate the feasibility and efficiency of waterwheel systems for small-scale hydropower generation. His educational journey is characterized by a strong integration of theory and practice, reinforced by involvement in laboratory work, project supervision, and engineering simulations. Mohammed’s academic progression demonstrates a clear trajectory toward research excellence and technical innovation in civil and environmental engineering. As he continues to expand his scholarly contributions through graduate research and peer-reviewed publications, his education equips him with the necessary skills to address global challenges in sustainable water infrastructure.

Professional Experience

Mohammed Al-Desouky has built a multifaceted professional background in academia, research, and engineering practice. Since December 2019, he has worked as a Lecturer Assistant in the Department of Water and Water Structures Engineering at Zagazig University. In this role, he supports the delivery of undergraduate courses and laboratory sessions in fluid mechanics, hydraulics, and water structures, while also supervising student projects and contributing to curriculum development. Concurrently, he serves as a Civil Hydraulic Engineer at the university’s Irrigation and Hydraulics Lab, conducting both experimental and computational research on flow behavior and hydraulic systems. Beyond academia, Mohammed has pursued various freelance roles. Between 2020 and 2021, he worked as a structural design freelancer, providing engineering solutions using SAP2000, ETABS, and SAFE. Since 2022, he has been engaged as a general contracting engineer, managing on-site construction, quality control, and stakeholder coordination. He also operates as a freelance CFD engineer, delivering fluid dynamics simulations and technical assessments using ANSYS Fluent and FLOW-3D. In addition, Mohammed co-founded CIVIC, a construction company specializing in design-build services and real estate. His experience across academic, research, and industry domains illustrates his versatility, leadership potential, and commitment to translating engineering theory into practical applications.

Research Interests

Mohammed Al-Desouky’s research interests lie at the intersection of civil engineering, hydraulics, and sustainable energy technologies. His primary focus is on the development and optimization of low-head hydropower systems, particularly the use of waterwheels in energy harvesting applications. Through his M.Sc. research, he explores the integration of traditional hydraulic structures with modern energy generation techniques to create efficient and eco-friendly solutions. This includes experimental investigations and computational modeling of flow behavior in open channels and water passage systems. His interest in Computational Fluid Dynamics (CFD) has led him to apply advanced simulation tools such as ANSYS Fluent and FLOW-3D to study fluid-structure interactions, energy dissipation, and turbine performance under varying hydraulic conditions. Mohammed is also interested in techno-economic assessments of renewable energy systems, aiming to ensure not only the technical feasibility but also the economic sustainability of engineering solutions. In addition, his work touches upon the structural analysis and design of civil infrastructure, with particular attention to how structural and hydraulic systems interact. He is motivated by the potential for interdisciplinary research to address global challenges in clean energy, water scarcity, and resilient infrastructure, and seeks to expand his contributions through international collaboration and high-impact publications.

Research Skills

Mohammed Al-Desouky possesses a comprehensive set of research skills that span theoretical analysis, computational modeling, and experimental evaluation. He is proficient in conducting Computational Fluid Dynamics (CFD) simulations using advanced platforms such as ANSYS Fluent and FLOW-3D. These tools allow him to analyze complex flow fields, pressure distributions, and energy conversion mechanisms within hydraulic structures. He is also skilled in 3D modeling for CFD pre-processing using AutoCAD 3D and SOLIDWORKS, enabling the creation of accurate geometrical inputs for simulation. In structural engineering, he is adept at using SAP2000, ETABS, SAFE, and CSI Column for load analysis, system modeling, and structural detailing. His research capabilities extend to numerical analysis and data interpretation, where he can derive velocity vectors, pressure contours, and turbulence profiles to assess fluid behavior. Mohammed is equally comfortable with physical experimentation, having worked extensively in hydraulic labs on open channel flow setups. He is experienced in technical report writing, academic presentations, and collaboration on multidisciplinary projects. His ability to bridge simulation with real-world engineering scenarios enhances the practical impact of his research. Combined with his knowledge of productivity tools like Microsoft Office and Adobe Photoshop, he is well-prepared to deliver high-quality research outcomes with technical precision.

Awards and Honors

Mohammed Al-Desouky has been recognized for his academic excellence and early contributions to engineering research. He graduated with honors from Zagazig University in 2019, earning a B.Sc. in Civil Engineering with an “Excellent with Honor” distinction, reflecting consistent academic performance throughout his undergraduate studies. His high GPA and class ranking earned him a teaching assistant position immediately after graduation, enabling him to contribute to both education and research activities within the university. Although still in the early stages of his professional and academic career, he has already secured a significant research publication in the prestigious Renewable Energy journal, which in itself represents a notable milestone and demonstrates peer-recognized research output. Additionally, his membership in the Egyptian Engineers Syndicate since 2024 reflects his professional standing within the engineering community in Egypt. While he has not yet accumulated a broad list of national or international awards, his current achievements highlight a trajectory of growing impact and recognition. His combination of academic excellence, publication success, and professional engagement position him well for future honors and research-based awards as his career develops. With continued output and wider visibility, he is poised to earn more distinguished recognition in the field of sustainable civil engineering.

Conclusion

Mohammed Al-Desouky exemplifies the profile of a promising early-career researcher in the field of civil and hydraulic engineering. With a strong foundation in both theoretical and applied aspects of engineering, he demonstrates a clear focus on integrating renewable energy concepts into water infrastructure systems. His work on pico-hydropower systems using waterwheels represents an innovative approach to sustainable energy generation, supported by robust CFD modeling and experimental validation. His publication in a reputable international journal signifies a high level of academic credibility, and his technical skill set equips him to tackle complex engineering problems. Beyond his research, Mohammed is active in teaching, lab supervision, and engineering consultancy, reflecting a well-rounded professional identity. Although his research output is still emerging, the quality and relevance of his work suggest significant future potential. Areas for further development include expanding his publication record, increasing international collaborations, and pursuing competitive research grants. With continued commitment and strategic engagement in the research community, Mohammed is well-positioned to become a leading figure in water and energy systems engineering. His current accomplishments serve as a strong foundation for long-term academic and professional success in addressing global sustainability challenges.

Publication Top Note

  1. Title: Techno-economic Assessment of the Dethridge Waterwheel under Sluice Gates in a Novel Design for Pico Hydropower Generation
    Journal: Renewable Energy
    Publication Date: August 2024
    Type: Journal Article
    DOI: 10.1016/j.renene.2024.121206
    ISSN: 0960-1481
    Authors: Mohamed Saber, Gamal Abdelall, Riham Ezzeldin, Ahmed Farouk AbdelGawad, Reda Ragab

 

Xuning Zhang | Energy | Best Researcher Award

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Assoc. Prof. Dr. Xuning Zhang | Energy | Best Researcher Award

Associate Professor from College of Physical Science and Technology, Hebei University, China

Dr. Xuning Zhang is a distinguished expert in power electronics, currently serving at Microchip Technology Inc. With over 15 years of experience, he has significantly contributed to the design and optimization of high-efficiency power converters, EMI modeling, and renewable energy systems. His academic journey includes a Ph.D. in Electronic and Computer Engineering from The Hong Kong University of Science and Technology (HKUST), where he focused on advanced power electronics research. Dr. Zhang has authored numerous publications, garnering over 1,200 citations, reflecting his impact in the field. His work is characterized by a blend of theoretical innovation and practical application, aiming to enhance the performance and reliability of power electronic systems. Beyond his technical expertise, Dr. Zhang is recognized for his leadership in collaborative projects and his commitment to advancing technology in sustainable energy solutions. His contributions continue to influence the development of next-generation power systems, making him a pivotal figure in the electronics engineering community.

Professional Profile

Education

Dr. Zhang’s educational background lays a strong foundation for his expertise in power electronics. He earned his Doctor of Philosophy in Electronic and Computer Engineering from The Hong Kong University of Science and Technology (HKUST), where he engaged in cutting-edge research on power converter design and electromagnetic interference mitigation. His doctoral studies were marked by a deep dive into the complexities of high-efficiency energy systems, preparing him for a career at the forefront of electrical engineering innovation. Prior to his Ph.D., Dr. Zhang completed his undergraduate studies in a related field, equipping him with the fundamental knowledge and analytical skills necessary for advanced research. Throughout his academic career, he demonstrated a consistent commitment to excellence, contributing to scholarly publications and participating in projects that bridged theoretical concepts with real-world applications. This rigorous academic training has been instrumental in shaping his approach to problem-solving and innovation in the field of power electronics.

Professional Experience

Dr. Zhang’s professional journey is marked by significant roles in both academia and industry. Currently, he is a key figure at Microchip Technology Inc., where he applies his extensive knowledge to develop advanced power electronic solutions. His work involves designing high-efficiency converters and optimizing electromagnetic compatibility, contributing to the company’s reputation for cutting-edge technology. Previously, Dr. Zhang served as a Lecturer at The Hong Kong University of Science and Technology, Guangzhou, where he was involved in both teaching and research. His academic role allowed him to mentor students and lead research projects, furthering advancements in power electronics and educational technologies. Dr. Zhang’s experience also includes collaborative projects with international teams, showcasing his ability to work across cultures and disciplines. His professional trajectory reflects a balance between theoretical research and practical application, underscoring his versatility and commitment to innovation in electrical engineering.

Research Interests

Dr. Zhang’s research interests are deeply rooted in the field of power electronics, with a particular focus on high-efficiency converter design, electromagnetic interference (EMI) modeling, and renewable energy integration. He is passionate about developing systems that not only perform optimally but also adhere to stringent EMI standards, ensuring reliability and safety. His work often explores the intersection of power density optimization and thermal management, aiming to create compact yet powerful electronic systems. Additionally, Dr. Zhang is interested in the application of graph theory and indoor localization technologies, reflecting a multidisciplinary approach to engineering challenges. His research endeavors are characterized by a commitment to sustainability, seeking solutions that contribute to the efficient use of energy resources. Through his investigations, Dr. Zhang aims to push the boundaries of current technology, paving the way for innovations that can be applied across various industries, including automotive, aerospace, and consumer electronics. His contributions continue to influence the direction of research and development in power electronics.

Research Skills

Dr. Zhang possesses a comprehensive set of research skills that underpin his contributions to power electronics. His expertise includes advanced simulation techniques using MATLAB for modeling complex electrical systems, allowing for precise analysis and optimization. He is adept at designing and implementing high-efficiency power converters, with a keen understanding of the nuances involved in minimizing energy losses and enhancing performance. Dr. Zhang’s skills extend to EMI analysis, where he employs sophisticated methods to predict and mitigate interference in electronic systems. His proficiency in renewable energy technologies enables him to develop solutions that integrate seamlessly with sustainable power sources. Furthermore, his experience with inverters and power quality assessment tools positions him as a valuable asset in projects requiring meticulous attention to electrical performance. Dr. Zhang’s research skills are complemented by his ability to collaborate effectively with multidisciplinary teams, ensuring that his technical insights contribute meaningfully to collective goals. His methodological approach and technical acumen continue to drive innovation in the field of electrical engineering.

Awards and Honors

Throughout his career, Dr. Zhang has received several accolades that recognize his contributions to engineering and academia. Notably, he was honored with the Thomas M. Weser Award at Vanderbilt University, acknowledging his exceptional commitment to intellectual life, cross-cultural appreciation, and personal integrity. This award is a testament to his dedication to fostering inclusive academic environments and his active participation in community service. In addition to this, Dr. Zhang has been recognized for his excellence in research and teaching during his tenure at various institutions. His achievements include being named an Excellent Graduate Student at the College of Computer (NUDT) and receiving the “Tang Lixin” Scholarship at Sichuan University, highlighting his academic prowess and leadership qualities. These honors reflect Dr. Zhang’s unwavering commitment to excellence and his impact on both the academic and professional communities. His decorated career serves as an inspiration to peers and students alike, underscoring the value of dedication, innovation, and cross-cultural engagement in the field of engineering.

Conclusion

Dr. Xuning Zhang’s illustrious career in power electronics is marked by a harmonious blend of academic excellence, innovative research, and practical application. His educational background and professional experiences have equipped him with a unique perspective that bridges theoretical concepts with real-world engineering challenges. Dr. Zhang’s research interests and skills have led to significant advancements in high-efficiency power systems, EMI mitigation, and renewable energy integration.

Publications Top Notes

  1. Efficient and stable hole-transport material for solar cells: from PEDOT:PSS to carbon nanotubes:PSS
    Authors: Y. Zhao, Q. Gao, D. Yang, D. Song, J. Chen
    Year: 2025

  2. Dissolution swelling effect-assisted interfacial morphology refinement enables high efficiency all-polymer solar cells
    Authors: W. Zhang, Y. Yue, F. Han, H. Zhou, Y. Zhang
    Year: 2024

  3. Ultrathin self-assembled monolayer for effective silicon solar cell passivation
    Authors: W. Li, Z. Zhao, J. Guo, X. Zhang, J. Chen
    Year: 2024

  4. Synergistic effect of ionic liquid and embedded QDs on 2D ferroelectric perovskite films with narrow phase distribution for self-powered and broad-band photodetectors
    Authors: L. Guo, X. Yang, Y. Liang, C. Pan, Z. Yang
    Year: 2024
    Citations: 5

  5. Organic passivation-enhanced ferroelectricity in perovskite oxide films
    Authors: H. Meng, B. Chen, X.H. Dai, B. Liu, J. Chen
    Year: 2024

  6. Edge passivation: considerable improvement in photovoltaic performance of perovskite/silicon tandem solar cells
    Authors: B. Chen, M. Cui, X. Wang, X. Zhang, J. Chen
    Year: 2024

  7. The development of carbon/silicon heterojunction solar cells through interface passivation (Review)
    Authors: B. Chen, X. Zhang, Q. Gao, B.S. Flavel, J. Chen
    Year: 2024
    Citations: 4