Prof. Zhongjian Xie | Best Researcher Award

University of Science and Technology China

Authour Profile

Orcid 

🎓 Early Academic Pursuits

Zhongjian Xie’s academic journey began with a strong foundation in science and engineering, culminating in a Ph.D. from the prestigious University of Lyon, France. This formative period laid the groundwork for his future contributions to biomedical optics and diagnostic technology. During his doctoral studies, he developed a profound interest in the intersection of photonics and medicine, particularly the application of light-based technologies in disease diagnostics and therapy. His academic training in a global research environment equipped him with both technical expertise and a collaborative mindset, essential for tackling interdisciplinary challenges in modern healthcare.

🧪 Professional Endeavors

Currently serving as a Researcher at Shenzhen Children’s Hospital, Dr. Xie also holds key leadership roles at the Guangdong Engineering Center for Rapid Diagnostics and the Affiliated Hospital of Shenzhen University, where he acts as the discipline head of biophotonics. His career reflects a seamless integration of research, technical innovation, and institutional development. He has led six national, provincial, and municipal-level research projects, significantly advancing the field of rapid diagnostics and non-invasive therapies. Additionally, his role as technical lead positions him at the forefront of developing scalable, clinical-grade photonic solutions.

🔬 Contributions and Research Focus

Dr. Xie’s research focuses on photoimmunotherapy and photonic sensing, with particular emphasis on enhancing disease detection sensitivity and therapeutic precision. His work in biomedical photonics involves developing novel optical technologies that can non-invasively diagnose, monitor, and treat complex diseases such as cancer and inflammatory disorders. His innovative diagnostic and therapeutic strategies have successfully overcome several key bottlenecks in optical biosensing, significantly improving clinical outcomes. Through the integration of light, immune engineering, and bioinformatics, he has proposed groundbreaking methods for real-time, in situ disease monitoring, establishing new paradigms in personalized medicine.

🏆 Accolades and Recognition

Dr. Xie’s outstanding contributions have earned him multiple prestigious honors. He is a two-time recipient of the Chinese Optical Society Science and Technology Award, reflecting his influential work in photonics and diagnostics. In 2024, he was honored with the China Industry-University-Research Innovation Award, recognizing his success in translating laboratory innovations into real-world clinical applications. His global standing is further reinforced by his inclusion in the Stanford-led list of the top 2% of scientists worldwide from 2022 to 2024. With an H-index exceeding 48, 96 peer-reviewed SCI-indexed publications, and 21 authorized patents (with an additional 62 in process), Dr. Xie’s research has made a lasting impact on both the academic and industrial landscapes.

🌍 Impact and Influence

Beyond his technical achievements, Dr. Xie’s influence extends into the broader scientific and medical communities. His innovations have been instrumental in bridging the gap between fundamental research and practical healthcare applications, especially in pediatric settings. His work is cited extensively, underlining the relevance and applicability of his contributions. Moreover, by fostering collaborations with institutions like Shenzhen University, he has created cross-functional research platforms that accelerate innovation. His consultancy projects with industry partners further demonstrate his ability to translate cutting-edge science into commercially viable and socially impactful technologies.

🌱 Legacy and Future Contributions

Dr. Zhongjian Xie’s vision for the future is deeply rooted in interdisciplinary collaboration, technological innovation, and clinical translation. He continues to pioneer advancements in real-time diagnostics and immune-responsive therapies, with a focus on scalability and affordability. By mentoring young researchers and leading high-impact projects, he is actively shaping the next generation of scientists in biomedical optics. His legacy will be defined not only by his scientific achievements but also by his commitment to improving global health outcomes through innovation. Moving forward, he aims to expand his work internationally, establish new diagnostic frameworks, and push the boundaries of what light-based therapies can achieve in modern medicine.

📖Notable Publications

Bifunctional black phosphorus quantum dots platform: Delivery and remarkable immunotherapy enhancement of STING agonist

Authors: Yujun Zhang, Shijing Wang, Hyeonji Rha, Chang Xu, Yue Pei, Xiaoyuan Ji, Junmin Zhang, Ruitao Lu, Shaochong Zhang, Zhongjian Xie, et al.
Journal: Biomaterials
Year: 2024

Detection of biological loads in sewage using the automated robot‐driven photoelectrochemical biosensing platform

Authors: Yiming Zhang, Zhi Chen, Songrui Wei, Yujun Zhang, Hai Fu, Han Zhang, Defa Li, Zhongjian Xie
Journal: Exploration
Year: 2024

 Detection of biological loads in sewage using the automated robot-driven photoelectrochemical biosensing platform

Authors: Yiming Zhang, Zhi Chen, Songrui Wei, Yujun Zhang, Hai Fu, Han Zhang, Defa Li, Zhongjian Xie
Journal: Preprint (Authorea)
Year: 2023

Oxygen-supplied electrotherapy for enhanced photodynamic synergistic therapy overcomes hypoxia tumor microenvironment

Authors: Chaozhou Li, Hui Tan, Ruitao Lu, Sainan Qin, Xiangying Meng, Han Zhang, Zhongjian Xie
Journal: Nanophotonics
Year: 2022

Three birds with one stone: oxygen self-supply engineering palladium nanocluster/titanium carbide hybrid for single-NIR laser-triggered synergistic

photodynamic-photothermal therapy
Authors: Shanshan Dang, Yanmei Mo, Junqing Zeng, Yunjie Xu, Zhongjian Xie, Han Zhang, Bin Zhang, Guohui Nie
Journal: Nanophotonics
Year: 2022

Dr. Ihtisham ul haq | Best Researcher Award

University of Science and Technology China

Authour Profile

Google Scholar 

🌱 Early Academic Pursuits

Ihtisham ul Haq began his academic journey with an inherent curiosity for the fundamental laws of nature and their real-world applications. This curiosity matured into a focused academic pursuit during his M.Phil in Physics at the University of Lahore, Pakistan, where he delved into the realm of advanced photovoltaic materials. His thesis research centered on “Bandgap Tuning of Ti-doped Cs₂AgBiBr₆,” an innovative approach aimed at improving the efficiency of lead-free double perovskite solar cells. This work reflected not only a strong grasp of solid-state physics and semiconductor science but also an early commitment to clean and sustainable energy research. The technical rigor and intellectual depth he demonstrated during this period formed the cornerstone of his evolving scientific identity.

🔬 Professional Endeavors

Motivated by the desire to explore the intersection of energy technology and environmental sustainability, Ihtisham continued his academic progression by enrolling in a Ph.D. program at the University of Science and Technology of China (USTC), one of Asia’s leading research universities. As a doctoral candidate in the Department of Optics and Optical Engineering, he is currently engaged in cutting-edge research on agrivoltaics—a field that integrates photovoltaic systems with agricultural environments to maximize land utility. His ongoing project, titled “Next-Generation Agrivoltaics: Innovations in Light Management and System Architecture,” aims to optimize both crop yield and solar energy generation through advanced optical strategies. In parallel, he has served as a Research Associate at the University of Lahore, where he contributes to experimental solar energy projects, gaining practical experience with various instruments such as UV-Vis spectrometers, solar simulators, and electrochemical workstations. His skills in handling I-V measurements, XRD, SEM, and UV-Vis data interpretation have made him a capable and confident experimentalist.

🧪 Contributions and Research Focus

Ihtisham’s core research revolves around materials innovation in the field of photovoltaics. He has published extensively on the development and optimization of lead-free double perovskite solar cells, specifically Cs₂AgBiBr₆. His contributions include exploring doping strategies using elements such as gallium, magnesium, molybdenum, and aluminum, as well as incorporating organic polymers like trans-polyacetylene and graphdiyne. These modifications aim to reduce bandgaps and enhance the optoelectronic properties of solar cell materials. His research is distinguished by its dual focus on environmental sustainability and device performance, positioning him at the forefront of next-generation solar technology development. Furthermore, his recent shift toward agrivoltaic integration demonstrates his ability to expand beyond material science and address holistic system design and application.

🏆 Accolades and Recognition

Ihtisham’s scholarly output has garnered significant academic recognition, including publications in high-impact international journals such as RSC Advances, ACS Omega, Materials Research Bulletin, Results in Chemistry, and Journal of the Korean Ceramic Society. His collaborative work with scientists from Saudi Arabia, South Korea, China, and Tunisia reflects his active engagement in global research networks. He has also been invited to present his work at prestigious academic forums, such as the 2024 International Conference on Emerging Trends in Physics at the University of Lahore. Earlier in his academic journey, he also participated in national conferences hosted by Hazara University and COMSATS University, where he showcased his commitment to academic dialogue and interdisciplinary learning.

🌍 Impact and Influence

The real-world relevance of Ihtisham’s research is underscored by its alignment with pressing global challenges such as climate change, renewable energy adoption, and sustainable agriculture. His work in double perovskite solar cells contributes to the broader scientific effort to phase out toxic lead-based materials while improving device efficiency. Moreover, his pioneering efforts in agrivoltaics offer practical solutions for regions facing energy and food security issues. By focusing on systems that enable simultaneous energy generation and crop production, his research has the potential to reshape land-use strategies in both rural and urban settings. This dual impact on science and society illustrates his vision for research that is not just technically sound but also deeply socially relevant.

🌟 Legacy and Future Contributions

Looking ahead, Ihtisham ul Haq aspires to be a thought leader and innovator at the intersection of physics, energy technology, and sustainability. He envisions a career that continues to bridge theoretical physics with practical solutions that benefit both industry and society. His future research plans include exploring new material architectures for agrivoltaics, collaborating with international institutions on green energy transitions, and leading interdisciplinary teams in real-world project implementation. He is particularly passionate about training the next generation of scientists and hopes to contribute to academic mentorship and scientific outreach in underrepresented regions. With a strong foundation in physics, proven research skills, and a compelling vision for impact, Ihtisham is poised to make lasting contributions to the global pursuit of sustainable technological advancement. 🌞

📖Notable Publications

 Impact of molybdenum doping on the optoelectronic and structural properties of CsPbIBr₂ perovskite solar cell

Authors: M. I. Khan, A. Mujtaba, S. Hussain, M. Atif, A. I. Qureshi, W. Shahid, A. Ali
Journal: Physica B: Condensed Matter
Year: 2024

Bandgap reduction and efficiency enhancement in Cs₂AgBiBr₆ double perovskite solar cells through gallium substitution

Authors: M. I. Khan, A. Ullah, A. Mujtaba, B. S. Almutairi, W. Shahid, A. Ali, J. R. Choi
Journal: RSC Advances
Year: 2024

 Bandgap Engineering and Enhancing Optoelectronic Performance of a Lead-Free Double Perovskite Cs₂AgBiBr₆ Solar Cell via Al Doping

Authors: A. Ullah, M. Iftikhar Khan, Ihtisham-ul-Haq, B. S. Almutairi, D. B. N. AlResheedi, et al.
Journal: ACS Omega
Year: 2024

 Influence of gallium on structural, optical and magnetic properties of Bi-YIG thin films

Authors: M. S. Hasan, M. I. Khan, S. S. Ali, A. Brahmia
Journal: Materials Science and Engineering: B
Year: 2024

 Trans-polyacetylene doped Cs₂AgBiBr₆: Band gap reduction for high-efficiency lead-free double perovskite solar cells

Authors: A. Ullah, M. I. Khan, B. S. Almutairi, A. Laref, A. Dahshan
Journal: Results in Physics
Year: 2024

Assoc. Prof. Dr. Jianwei Wang | Best Researcher Award

School of Materials and Energy, University of Electronic Science and Technology of China

Authour Profile

Orchid 

🎓 Early Academic Pursuits

Jianwei Wang’s academic journey began with a strong foundation in physics and materials science, guided by a passion for unraveling the fundamental mechanisms of matter. Early on, he demonstrated a profound interest in condensed matter physics, which eventually shaped his career. His academic training was marked by rigorous coursework and hands-on research that laid the groundwork for his later specialization in computational material science and materials informatics. As a student, he displayed a unique ability to merge theoretical understanding with practical problem-solving, setting him apart from his peers. His early research contributions were already aimed at addressing complex material behaviors through computational simulations—an approach he continues to refine and expand today.

🧪 Professional Endeavors

Currently serving as an Associate Researcher at the School of Materials and Energy, University of Electronic Science and Technology of China, Jianwei Wang leads cutting-edge research in interdisciplinary domains. His work integrates computational simulations with real-world material applications, focusing particularly on the electronic properties of semiconductor defects, topological and multiferroic characteristics of 2D materials, and the doping modulation mechanisms in perovskites.

Wang has also contributed significantly to uncovering microscopic mechanisms behind electrochemical catalytic reactions, and he has modeled the mechanical and thermal behaviors of amorphous materials. Through these efforts, he actively advances the design and optimization of next-generation materials for use in electronics and energy devices. His expertise extends to both academic and industrial domains, reflecting a versatile career with wide-reaching applications.

🔬 Contributions and Research Focus

Jianwei Wang’s research portfolio is both extensive and impactful. Notably, he uncovered the coexistence of piezoelectricity and ferroelectricity in MA₂Z₄-based 2D heterojunctions, particularly highlighting MoGe₂N₄/MoSi₂N₄ with a record-breaking out-of-plane piezoelectric coefficient of 73.28 pm/V. He further demonstrated that staggered stacking in bilayer or multilayer MgAl₂S₄ can induce spontaneous ferroelectric behavior.

Additionally, his theoretical prediction that Janus SrInGaTe₄ could act as a topological insulator under spin-orbit coupling conditions represents a pioneering direction in material science. Wang has also developed an automated high-throughput DFT-based computational workflow to design hybrid halide perovskite monolayers. This initiative is key in enabling material databases for machine learning-driven materials discovery—a cornerstone of materials informatics.

🏆 Accolades and Recognition

Jianwei Wang’s academic output has been recognized by publication in top-tier, peer-reviewed journals such as npj Computational Materials, Science Advances, Nano Energy, and Chemical Communications. These publications reflect not only his research quality but also the high impact and relevance of his work in the global scientific community.

In acknowledgment of his expertise, he has been appointed as a Junior Editorial Board Member for the Journal of Materials Informatics for the 2025–2026 term. This prestigious role underscores his standing in the community as both a researcher and thought leader. His work has been supported by the National Natural Science Foundation of China, validating the national importance of his research themes.

🌏 Impact and Influence

Jianwei Wang’s research influences multiple domains—from academic to industrial sectors. His contributions to 2D materials and perovskite research open new pathways for the development of more efficient solar cells, transistors, sensors, and piezoelectric devices. His insights into catalytic and thermal mechanisms in amorphous materials also have implications for energy storage, environmental remediation, and wearable technologies.

Through computational innovations, he has not only contributed to theory but has also accelerated material discovery, saving both time and resources. By bridging theory, simulation, and application, his work creates a direct pipeline from hypothesis to market-ready materials.

🌟 Legacy and Future Contributions

Looking ahead, Jianwei Wang is poised to continue pushing the boundaries of material science. He envisions expanding the reach of materials informatics through AI-powered frameworks and aims to establish comprehensive, open-access databases for next-gen materials. His ambition includes mentoring young researchers and building international collaborations to further accelerate scientific progress.

Through a blend of scientific rigor and visionary thinking, Jianwei Wang is shaping the future of materials research. His legacy will lie not only in the data and discoveries he leaves behind but also in the community of researchers he inspires and the sustainable technologies his work makes possible.

📖Notable Publications

 Enhanced phase prediction of high-entropy alloys through machine learning and data augmentation

Authors: Song Wu, Zihao Song, Jianwei Wang, Xiaobin Niu, Haiyuan Chen
Journal: Physical Chemistry Chemical Physics
Year: 2025

 Theoretical investigations of transition metal atom-doped MoSi₂N₄ monolayers as catalysts for electrochemical CO₂ reduction reactions

Authors: Guoqiang Ding, Yiwen Gao, Hetong Zhang, Na Yang, Xiaobin Niu, Jianwei Wang
Journal: Physical Chemistry Chemical Physics
Year: 2025

 Theoretical predicted topological properties of Janus SrInGaTe₄

Authors: Yiwen Gao, Xiaojing Gao, Xiaobin Niu, Jianwei Wang
Journal: Physica E: Low-dimensional Systems and Nanostructures
Year: 2025

 Large out-of-plane piezoelectric response and ultra-low polarization transition barriers in two-dimensional MoGe₂N₄/MoSi₂N₄ heterostructures

Authors: Peiyao Wu, Xiaobin Niu, Jianwei Wang
Journal: Applied Surface Science
Year: 2025

 A weakened Fermi level pinning induced adsorption energy non-charge-transfer mechanism during O₂ adsorption in silicene/graphene

heterojunctions
Authors: Xuhong Zhao, Haiyuan Chen, Jianwei Wang, Xiaobin Niu
Journal: Physical Chemistry Chemical Physics
Year: 2024