Chengyan Liu | Advanced Computing | Best Researcher Award

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Prof. Chengyan Liu | Advanced Computing | Best Researcher Award

Henan University | China

Professor Chengyan Liu is a distinguished scholar in Condensed Matter Physics and Computational Physics, currently serving as a Full Research Professor at the Institute of Future Technologies, Henan University. He is a Doctoral Supervisor and a recognized Yellow River Scholar. With academic roots from Fudan University and an international postdoctoral stint at UC Irvine, Prof. Liu has become a leading authority on defect physics, semiconductor interfaces, and photoelectronic materials. His prolific output includes over 20 high-impact publications, multiple national research grants, and a reputation for pushing the boundaries of theoretical materials science.

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🎓 Early Academic Pursuits

Prof. Liu’s academic journey began with a B.Sc. in Physics from Zhengzhou University in 2011, followed by an M.Sc. in Theoretical Physics at the same institution in 2014. He then pursued a Ph.D. at Fudan University, completing it in 2017 under a rigorous theoretical physics program. During this formative period, he laid a solid foundation in quantum theory, computational modeling, and condensed matter systems, which would become central to his future research. His early interest in semiconductor materials and grain boundary phenomena steered him toward the path of advanced computational materials physics.

🏛️ Professional Endeavors 

After earning his Ph.D., Prof. Liu expanded his expertise as a postdoctoral researcher at the University of California, Irvine, where he worked in the Department of Astrophysics. He returned to China to join Henan University, rapidly progressing from Lecturer (2020) to Distinguished Professor, and most recently, a Fast-Tracked Full Professor (2024) under Henan’s elite talent program. At Henan, he spearheads critical research in the Quantum Materials and Quantum Energy Lab, leads provincial and national-level projects, and serves as a doctoral mentor. His role bridges academic leadership, institutional innovation, and scientific advancement.

🔬 Contributions and Research Focus

Prof. Liu specializes in theoretical studies of defect physics, excited-state dynamics, and optoelectronic behavior in multicomponent semiconductors. His pioneering work on Cu₂ZnSn(SSe)₄ solar cells, defect passivation, and p-type transparent conductors has led to material innovations critical for next-generation solar energy devices. He is known for integrating first-principles calculations, nonadiabatic molecular dynamics, and interface engineering to resolve longstanding efficiency bottlenecks in photovoltaics. His research also touches on phonon imaging, bandgap tuning, and nanostructure thermodynamics, cementing his role as a cross-disciplinary leader in materials computation and energy physics.

🌏 Impact and Influence

Prof. Liu’s research has significantly impacted the fields of photovoltaics, defect engineering, and quantum materials. His work in kesterite solar cells has advanced understanding of Voc-deficits and interface stability, directly influencing experimental design across China and abroad. He has published in Nature, Advanced Energy Materials, and npj Computational Materials, garnering citations and collaborations globally. As a corresponding or first author on most of his publications, he shapes scholarly discourse and sets research directions. His mentorship and visibility in national projects further amplify his influence on China’s renewable energy research landscape.

📚 Academic Citations

Prof. Liu has authored or co-authored over 20 peer-reviewed publications in journals with impact factors exceeding 50 (Nature, AFM, Nano Letters, etc.). His works are widely cited in the fields of materials chemistry, physics, and energy science. His contributions to defect theory, interface passivation, and electronic structure analysis are frequently referenced by experimentalists and theorists alike. Notably, his 2021 Nature paper on single-defect phonons and his 2017 work in Advanced Energy Materials are seminal in their respective domains. His consistent authorship and citation metrics mark him as a globally recognized scholar in computational materials science.

🧠 Research Skills

Prof. Liu possesses deep expertise in first-principles modeling, density functional theory (DFT), nonadiabatic dynamics, and defect analysis. His ability to combine quantum simulations with applied material design allows him to bridge theory and experiment. He has demonstrated prowess in bandgap engineering, passivation chemistry, and interface defect control. His skillset includes advanced tools like VASP, Quantum ESPRESSO, and phonon analysis frameworks. He leads multi-disciplinary teams, mentors graduate researchers, and designs custom simulation frameworks to address complex materials problems placing him at the frontier of computational materials innovation.

🎓 Teaching Experience

Since 2020, Prof. Liu has taught Advanced Quantum Mechanics for graduate students, delivering 54 hours annually. He is renowned for blending rigorous theoretical depth with computational applications, making abstract quantum concepts tangible. His textbook contribution, Study Guide to Griffiths’ Quantum Mechanics, demonstrates his pedagogical commitment and ability to clarify complex physics. Students under his mentorship have contributed to publications, signaling his effectiveness in academic training and talent development. Prof. Liu emphasizes problem-solving, analytical thinking, and research integration, providing a strong foundation for emerging physicists and materials scientists under his guidance.

🏆 Awards and Honors

Prof. Liu was awarded the prestigious Yellow River Scholar title a top provincial honor recognizing distinguished academic performance. His selection as a Fast-Tracked Full Professor under Henan’s High-Level and Urgently Needed Talent Program attests to his scientific merit and leadership potential. He has received multiple NSFC research grants and is the recipient of the Henan Excellent Young Scientists Fund. His inclusion on the Board of the Henan Physical Society further highlights his stature in the academic community. These honors reflect not only his past accomplishments but also his promise for future breakthroughs.

🚀 Legacy and Future Contributions

Prof. Liu is poised to leave a lasting legacy in quantum materials research and solar energy innovation. His pioneering work on transparent conductors, defect-tolerant semiconductors, and carrier lifetime enhancement will continue to shape the next wave of clean energy technology. As a mentor, author, and national project leader, he is building a robust academic ecosystem in Henan Province and beyond. Looking ahead, he aims to expand international collaborations, transition more research toward real-world applications, and foster interdisciplinary integration. His legacy will likely include both scientific excellence and the nurturing of future scientific leaders.

Publications Top Notes

  • Title: Defect inducing large spin orbital coupling enhances magnetic recovery dynamics in CrI3 monolayer
    Authors: Yu Zhou, Ke Zhao, Zhenfa Zheng, Huiwen Xiang, Jin Zhao,* Chengyan Liu,*
    Journal: npj Computational Materials
    Year: 2025

  • Title: Interfacial passivation of kesterite solar cells for enhanced carrier lifetime: Ab initio nonadiabatic molecular dynamics study
    Authors: Huiwen Xiang, Zhenfa Zheng, Ke Zhao, Chengyan Liu,* Jin Zhao,*
    Journal: Advanced Functional Materials
    Year: 2024

  • Title: Synergistic densification in hybrid organic-inorganic MXenes for optimized photothermal conversion
    Authors: Tong Xu, Shujuan Tan,* Shaoxiong Li, Tianyu Chen, Yue Wu, Yilin Hao, Chengyan Liu,* Guangbin Ji,*
    Journal: Advanced Functional Materials
    Year: 2024

  • Title: Defect-complex engineering to improve the optoelectronic properties of CuInS2 by phosphorus incorporation
    Authors: Huiwen Xiang, Jinping Zhang, Feifei Ren, Rui Zhu, Yu Jia, Chengyan Liu,*
    Journal: Physical Review Applied
    Year: 2023

  • Title: Analytical energy formalism and kinetic effects of grain boundaries: A case study of graphene
    Authors: Chengyan Liu, Zhiming Li, Xingao Gong,*
    Journal: Applied Physics Letters
    Year: 2024

 

Ali Zaoui | Computational Methods | Computational Science Excellence Award

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Prof. Ali Zaoui | Computational Methods | Computational Science Excellence Award

Djillali Liabes University of SIDI BELI ABBES | Algeria

Ali Zaoui is a Professor and Team Leader at the Physics Computational Materials Laboratory at the University of Sidi Bel Abbes, Algeria. With a distinguished career spanning several decades, he has made significant contributions to the field of computational materials science. Zaoui holds a PhD in Material Sciences and has taught in various capacities, progressing from General Physics to Nanotechnology at the University of Sidi Bel Abbes.

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Early Academic Pursuits 🎓

Zaoui’s academic journey began with a B.Sc. in Physics from the University of Sidi Bel Abbes (1991-1996). He then pursued a M.Sc. in Solid State Physics (1998-2000), focusing on the electronic structure of BSb compounds using the FP-LAPW method. Zaoui continued his academic pursuit with a Ph.D. in Material Sciences (2000-2005), conducting groundbreaking research on TiCxN1−x, ZrxNb1−xC, and HfCxN1−x alloys through first-principles calculations. His early work established a foundation in ab-initio methods for studying the electronic structures of complex materials.

Professional Endeavors 🧑‍💼

Zaoui’s professional career includes roles as a Professor at the University of Sidi Bel Abbes, where he has been an influential faculty member since 2005. Additionally, he has held leadership roles, such as Team Leader and Director of various computational material science laboratories. His contributions extend beyond teaching, as he has also served in prominent positions such as Dean of the Faculty of Exact Sciences at the Djillali Liabes University and President of the Doctoral Formation Committee.

Contributions and Research Focus 🔬

Zaoui’s research focus spans a range of topics, with particular emphasis on computational physics, material science modeling, and condensed matter physics. His expertise lies in studying strongly correlated systems, magnetism, and superconductivity in atomic and condensed matter physics. His contributions in first-principles calculations have advanced the understanding of alloy properties, nanostructures, and electronic behaviors of various materials. Notable works include research on Hf3N4 and Zr3N4 compounds, as well as RE2Ni2Pb (R=Er, Ho), contributing to the advancement of material science through simulation and modeling techniques.

Impact and Influence 🌐

Zaoui’s impact in the field of computational material science is substantial, with significant influence in educating future generations of physicists. As a team leader, he has guided a range of research projects that continue to shape the field. His involvement in summer schools, conferences, and workshops on DFT, simulation methods, and materials modeling has contributed to international collaborations and the sharing of knowledge on an international scale. His research has shaped the academic landscape of materials science, particularly in Algeria and North Africa.

Academic Cites 📚

Zaoui’s academic works have gained significant recognition and have been cited in a wide array of material science journals. His research on Hf3N4 and Zr3N4 compounds, along with his contributions to optical properties of semiconductors and first-principles simulations, has been referenced widely in the scientific community. His work is highly regarded for its accuracy, innovation, and practical application in understanding the electronic structures of materials.

Research Skills 🧑‍🔬

Zaoui’s research is known for the depth of computational analysis and precision in applying first-principles calculations. He is highly skilled in using DFT, LDA+U methods, and ab-initio techniques to model complex material properties, from magnetism to superconductivity. His computational techniques allow for predictive modeling of material behaviors, an essential aspect in the development of new materials for various applications. Zaoui’s research is marked by his ability to bridge theory with practical outcomes, bringing computational insights into real-world scenarios.

Teaching Experience 📖

Zaoui has a rich and diverse teaching experience, spanning from general physics to specialized subjects like magnetism, thermodynamics, and nanotechnology. He has taught at both undergraduate and graduate levels, including at institutions like the Higher School of Computer Science of Sidi Bel Abbes. His teaching extends beyond the classroom, having led seminars, summer schools, and research conferences. His commitment to educating the next generation of physicists has made a lasting impact on the scientific community in Algeria.

Awards and Honors 🏆

While detailed awards are not listed in the provided information, Zaoui’s significant contributions to computational material science, his leadership in education, and his influential research undoubtedly position him for recognition in various academic circles. His leadership role in organizing scientific committees and overseeing doctoral training programs reflects his contribution to the academic excellence in material science.

Legacy and Future Contributions 🌱

Zaoui’s legacy is deeply rooted in his research, teaching, and leadership in computational materials science. His future contributions are expected to continue influencing the advancement of computational tools and material science innovations. With his focus on nanotechnology, superconductivity, and magnetism, Zaoui is well-positioned to make future breakthroughs in the understanding of next-generation materials. As his work continues to inspire the global research community, Zaoui’s legacy will likely shape the future of computational materials science and nanotechnology for many years to come.

Publications Top Notes

Impact of polymer binders on the aggregation modes of two-pieces CSH composites

  • Authors: J., Jia, Jiwei; A., Zaoui, Ali; W., Sekkal, Wassila
    Journal: Cement and Concrete Research, Year: 2025

Molecular modeling of clay minerals: A thirty-year journey and future perspectives

  • Authors: A., Zhou, Annan; J., Du, Jiapei; A., Zaoui, Ali; W., Sekkal, Wassila; M.S., Sahimi, Muhammad Syamim
    Journal: Coordination Chemistry Reviews, Year: 2025

Crystal structure and magnetic properties of lithium nitridoferrate: Density functional theory calculations

  • Authors: M.R., Aced, Mohammed Reda; N., Benayad, Nawel; F., Drief, F.; S., Kacimi, Salima; M., Djermouni, Mostefa
    Journal: Journal of Magnetism and Magnetic Materials, Year: 2025

Exploring superconducting signatures in high-pressure hydride compounds: An electronic-structure analysis

  • Authors: C., Mohammed Krarroubi; N., Benayad, Nawel; F., Benosman, Fayssal; S., Kacimi, Salima; A., Zaoui, Ali
    Journal: Physica C: Superconductivity and its Applications, Year: 2025

Influence of particle size distribution and normal pressure on railway ballast: A DEM approach

  • Authors: Z., Yan, Zhu; A., Zaoui, Ali; W., Sekkal, Wassila
    Journal: High-speed Railway, Year: 2025

Discrete-Element Method Study of the Effect of Ballast Layer Depth on the Performance of Railway Ballast Bed

  • Authors: Z., Yan, Zhu; A., Zaoui, Ali; W., Sekkal, Wassila
    Journal: International Journal of Geomechanics, Year: 2025

 

 

 

Xiong Zhang | Computational Particle Physics | Best Researcher Award

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Mr. Xiong Zhang | Computational Particle Physics | Best Researcher Award

Yan’an University | China

Xiong Zhang is a Lab Technician at the College of Physics and Electronic Information, Yan’an University. Born in Suide, Shaanxi, in September 1990, he has emerged as an innovative researcher in the field of electronic communications . Zhang is currently a PhD Candidate with a strong academic background and a focus on photocatalysis, MEMS systems, and smart technologies. His work spans research, teaching, and practical innovations, making him a significant contributor to both academia and industry.

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Early Academic Pursuits 🎓

Xiong Zhang began his academic journey with a deep interest in electronic communications. After completing his undergraduate studies, he pursued advanced degrees and became a PhD candidate, dedicating his time to research in electronic systems and nanotechnology. His passion for innovative solutions in environmental applications began early, setting the foundation for his current work in photocatalysis and energy solutions.

Professional Endeavors 🔬

Throughout his career, Zhang has led and contributed to several cutting-edge research projects. These include the development of Beidou navigation systems, MEMS inertial navigation, and smart technologies like smart mountaineering clothes and dynamic wireless charging systems for electric vehicles 🚗🔋. As the principal investigator in several projects, he has showcased his leadership and commitment to technological advancement in both theoretical and practical applications.

Contributions and Research Focus 🧪

Zhang’s research is focused primarily on photocatalysis and environmental sustainability. His publications in SCI-3 and SCI-4 journals highlight his expertise in photocatalytic degradation and the design of advanced materials like g-C₃N₄BiVO₄ heterojunctions and Cr₂O₃ embedded g-C₃N₄ composites. His work seeks to improve the efficiency of photocatalytic systems for applications in environmental remediation and renewable energy production 🌱. In addition, Zhang’s research also delves into theoretical investigations of water splitting and metal-doped nanostructures for sustainable energy.

Impact and Influence 🌍

Xiong Zhang’s research has a direct impact on sustainable technologies, with a focus on green energy and environmental protection. By developing innovative photocatalytic systems, he contributes significantly to solving real-world challenges in pollution control and energy efficiency. His work has also influenced the development of smart wearable technologies, contributing to advanced health monitoring systems. Through these contributions, Zhang plays a vital role in environmental sustainability and energy innovation.

Academic Cites 📚

Zhang’s publications have gained considerable recognition in the academic community. His work in photocatalysis has led to citations from peers in related fields, indicating the relevance and application of his research. Being a first author on several influential papers, he has paved the way for further studies in energy materials, smart technologies, and sustainable development. His research is referenced by scientists and engineers working on similar projects, making him an influential figure in his field.

Research Skills 🔍

Xiong Zhang demonstrates exceptional research skills in both experimental and theoretical investigations. He is highly skilled in material synthesis, characterization techniques, and theoretical modeling. His expertise in designing and optimizing photocatalytic systems and MEMS-based technologies has positioned him as an expert in advanced materials and nanotechnology. Additionally, his experience in leading research projects and managing interdisciplinary teams showcases his leadership and collaborative abilities.

Teaching Experience 🧑‍🏫

Since 2018, Zhang has been actively involved in experimental teaching and laboratory management at Yan’an University. He teaches a range of courses in electronic communications, including “Analog Electronic Technology”, “Digital Electronic Technology Experiments”, and Electrical Engineering Experiments. He also provides valuable hands-on training to students, preparing them for real-world applications of electronic technologies. Starting in 2024, he will take on a more prominent teaching role in “Microcontroller Principles and Applications”, further contributing to the academic development of his students 💡.

Awards and Honors 🏆

Xiong Zhang’s dedication to academic excellence and student mentorship has been recognized with numerous awards:

  • University Student Electronic Design Competitions: Multiple awards, including First, Second, and Third Prizes, in the Shaanxi Division 🏅.
  • Yan’an University Teaching Achievement Award (2021): Second Prize, highlighting his teaching excellence 🏆.
  • Shaanxi Higher Education Scientific Research Achievement Award (2024): Third Prize, recognizing his contributions to scientific research 🎖️.

These awards reflect his commitment to academic excellence and his positive influence on both students and the broader research community.

Legacy and Future Contributions 🔮

Xiong Zhang’s work continues to evolve as he explores new areas in sustainable technologies and energy solutions. With his ongoing research projects, particularly in the field of synergistic photocatalytic mechanisms and metal-doped nanostructures, Zhang is poised to make even greater contributions to renewable energy and environmental sustainability. His legacy will likely be built on transformative advancements in clean technologies, smart systems, and energy innovation, helping shape the future of green energy and sustainable development 🌍.

Publications Top Notes

  • Enhanced the Efficiency of Photocatalytic Degradation of Methylene Blue by Construction of Z-Scheme g-C₃N₄BiVO₄ Heterojunction
    Authors: Xiong Zhang (First Author)
    Year: 2021

  • Facile Synthesis of Cr₂O₃ Embedded g-C₃N₄ Composites with Excellent Visible-Light Photocatalytic
    Authors: Xiong Zhang (First Author)
    Year: 2022

  • Theoretical Insight into Water Splitting Mechanism of B Doped Tri-s-Triazine-Based g-C₃N₄m-BiVO₄(001) Heterojunction Photocatalyst
    Authors: Xiong Zhang (First Author)
    Year: 2023

  • Theoretical Investigation of the sm-BiVO₄ of Different Surfaces for Photocatalytic Properties
    Authors: Xiong Zhang (First Author + Corresponding Author)
    Year: 2024

  • Basic Experiment Tutorial for Circuits and Electronic Technology
    Authors: Xiong Zhang (Associate Editor)
    Year: 2021