Ting Geng | Low-Dimensional Materials | Best Researcher Award

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Dr. Ting Geng | Low-Dimensional Materials | Best Researcher Award

Dr. Ting Geng, Beijing Institute of Graphic Communication, China

Ting Geng is a distinguished physicist and lecturer at the Beijing Institute of Graphic Communication, specializing in the structure and physical properties of low-dimensional materials under high pressure. His academic journey has been marked by rigorous training in condensed matter physics and a strong focus on advanced material synthesis, high-pressure physical chemistry, and optical property analysis. With over 30 publications in leading international journals, several patents, and a published monograph, he has emerged as a promising researcher making significant contributions to materials science. His ability to integrate fundamental physics with applied material innovation demonstrates his role as a leading scholar and educator.

Professional Profile

Scopus Profile | ORCID

Education

Ting Geng pursued his academic foundation in physics at North China University, where he developed a strong interest in condensed matter and material systems. His bachelor’s degree provided the groundwork for further specialized studies in condensed matter physics at Jilin University, a prestigious institution recognized for scientific excellence. He successfully completed both his master’s and doctoral degrees at Jilin University, focusing on condensed matter physics with an emphasis on the structural design and functional properties of materials under extreme conditions. This progression not only refined his experimental skills but also deepened his expertise in high-pressure physical chemistry, nano-material synthesis, and optical property evaluation, laying the foundation for his later academic and research achievements.

Experience

Currently serving as a lecturer at the Beijing Institute of Graphic Communication, Ting Geng combines academic instruction with cutting-edge research in material science. His teaching integrates theoretical knowledge with practical experimentation, offering students exposure to contemporary advancements in physics and material studies. Beyond the classroom, he has presided over and actively participated in 12 national, institutional, and collaborative scientific research projects. These include a general project of the National Natural Science Foundation, multiple industry–academia cooperative initiatives, and horizontal research projects. His involvement in these projects underscores his ability to manage complex, interdisciplinary research while fostering collaboration between academia and industry.

Research Focus

Ting Geng’s primary research focus lies in the structure and physical properties of low-dimensional materials under high-pressure conditions. His investigations explore the synthesis and preparation of nanomaterials, structural characterization under extreme environments, and the evaluation of optical and physical behaviors. This research is crucial for understanding material responses to extreme pressures and advancing applications in next-generation electronic, optical, and functional devices. By bridging experimental material synthesis with theoretical insights, his work contributes to the design of novel materials with enhanced properties, supporting innovation in applied physics and engineering.

Publication Top Notes

Title: Pressure Effect on All-Inorganic Lead-Free Halide Perovskite Materials: Structural and Optical Properties
Summary: This work examines how external pressure influences the structural and optical characteristics of all-inorganic lead-free halide perovskites. It highlights pressure-induced phase transitions, bandgap tuning, and changes in light absorption, demonstrating the potential of pressure engineering to enhance stability and performance in environmentally friendly optoelectronic devices.

Title: Electron Transport Layer Materials of Perovskite Solar Cells
Summary: This review discusses various electron transport layer (ETL) materials used in perovskite solar cells, analyzing their structural, electronic, and interfacial properties. It emphasizes strategies for improving charge transport, reducing recombination losses, and enhancing device stability, offering pathways toward higher efficiency in perovskite photovoltaic technologies.

Conclusion

Through his outstanding academic training, extensive research contributions, and dedication to teaching, Ting Geng has established himself as a highly impactful physicist and educator. His work in synthesizing and characterizing nanomaterials under high pressure has significantly advanced the field of condensed matter physics, while his prolific publication record in leading journals underscores the global relevance of his research. His patents and authored monograph further highlight his commitment to bridging theory and practice, ensuring that scientific advancements translate into real-world applications.

Tiandong Xia | Materials Science | Best Researcher Award

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Prof. Dr. Tiandong Xia | Materials Science | Best Researcher Award

Professor, Lanzhou University of Technology, China

Professor Tiandong Xia is a leading academic and doctoral supervisor in the Department of Materials Science and Engineering at Lanzhou University of Technology. With deep expertise in biomedical materials, he has built a career grounded in innovation and scientific inquiry. His research contributions span the synthesis, processing, and application of functional materials, with a focus on microneedle technology, biocompatibility, and electrochemical performance. Recognized for his collaborative and interdisciplinary approach, Professor Xia has published impactful research articles that bridge materials science and medical technology.

Professional Profile

Education 🎓

Professor Xia pursued his entire academic formation in the field of Materials Science and Engineering, completing his undergraduate, master’s, and doctoral degrees with academic distinction. His doctoral work focused on functional materials for high-performance biomedical applications, establishing a foundation for his future career as a researcher and mentor. His educational background is marked by a commitment to both theoretical understanding and applied research, which continues to guide his scholarly pursuits today.

Experience 🏫

Over the years, Professor Xia has played an instrumental role in advancing materials science research at Lanzhou University of Technology. As a doctoral supervisor, he has mentored numerous postgraduate students, fostering a research culture of curiosity and precision. He is frequently involved in national and international research collaborations, contributing his expertise in biomaterials engineering to address complex challenges in healthcare technologies. His academic roles also include curriculum development, lab oversight, and participation in scientific committees focused on materials innovation.

Research Interests 🔬

Professor Xia’s research bridges materials science, bioengineering, and applied chemistry, with a focus on developing smart, safe, and effective materials for biomedical use. His key areas include microneedles for transdermal sensing and drug delivery, electrode and surface modification, oxidation resistance of metal alloys, and nano-structured coatings and biosensors. His work aims to advance minimally invasive diagnostic and therapeutic technologies that address real-world medical challenges.

Publications Top Notes📚

  • ia, Baoling; Xia, Tiandong; Wang, Xiaohui; Xu, Yangtao; Li, Bei. Investigation of biosensing properties in magnetron sputtered metallized UV-curable polymer microneedle electrodes. Journal of Biomaterials Science, Polymer Edition, 2024.
    Summary: This study explores the fabrication and biosensing performance of UV-curable polymer microneedle electrodes metallized via magnetron sputtering. The work demonstrates promising electrochemical properties suitable for minimally invasive biosensor applications.

  • Zhang, Han; Gao, Yueyue; Qiao, Jisen; Xia, Tiandong. Effect of high temperature heat treatment on microstructure and mechanical properties of electrodeposited nickel. Jinshu Rechuli/Heat Treatment of Metals, 2023.
    Summary: This article investigates how high-temperature heat treatment affects the microstructure and mechanical behavior of electrodeposited nickel. Findings indicate that controlled heat treatment enhances grain growth and mechanical strength.

  • Jia, Baoling; Xia, Tiandong; Wang, Xiaohui; Xu, Yangtao; Guo, Zhenyu. Morphology design of polymer microneedle arrays: Key factors from the application perspective. Review Article, Year Not Specified.
    Summary: This review examines critical factors influencing the morphology of polymer microneedle arrays, such as shape, size, and structural design, with a focus on optimizing their functionality for transdermal drug delivery and biosensing applications.

  • Xie, Xiao; Wang, Xiaojun; Xia, Tiandong. Effects of Rare Earth Y on Oxidation Resistance of Cr20Ni80 Electrothermal Alloy at High Temperature. Tezhong Zhuzao Ji Youse Hejin/Special Casting and Nonferrous Alloys, 2022.
    Summary: The paper analyzes the impact of rare earth element yttrium on the high-temperature oxidation resistance of Cr20Ni80 electrothermal alloy. Results show that Y addition significantly enhances surface stability and oxidation resistance under thermal stress.

Conclusion 🏆

Professor Tiandong Xia has built a distinguished career in materials science, particularly in the development of biomedical materials that serve both clinical and industrial purposes. His innovative research on microneedle technologies and alloy modification has not only advanced academic knowledge but also opened new possibilities in non-invasive medical diagnostics and high-performance engineering applications. His commitment to excellence, mentorship, and collaborative research makes him a compelling candidate for any award recognizing contributions to science and technology.