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Tiange Zhao | Materials Science | Best Researcher Award

Published on by World Science Awards

Best Researcher Award

Tiange Zhao
Shanghai Institute of Technical Physics, Chinese Academy of Sciences, Shanghai, China
Tiange Zhao
Affiliation Shanghai Institute of Technical Physics, Chinese Academy of Sciences
Country China
Scopus ID 57825529200
Documents 17
Citations 462
h-index 9
Subject Area Materials Science, Optoelectronics, Infrared Photodetection, Two-Dimensional Materials
Event World Science Awards

Tiange Zhao is a Chinese materials scientist and postdoctoral researcher affiliated with the Shanghai Institute of Technical Physics, Chinese Academy of Sciences. His research activities are primarily centered on the controllable synthesis of narrow-band two-dimensional materials and the development of high-performance infrared photodetection devices. Zhao has contributed to the advancement of wafer-scale two-dimensional material growth, substrate engineering strategies, and topological insulator-based photodetectors for broadband and mid-wave infrared applications.[1]

Abstract

Tiange Zhao has developed a scholarly profile in the field of materials physics and optoelectronic engineering through research on two-dimensional materials and infrared photodetection technologies. His work addresses challenges associated with wafer-scale synthesis, substrate engineering, and heterojunction integration for advanced optoelectronic systems. Zhao’s publications in internationally recognized journals indicate active contributions to next-generation infrared sensing technologies and scalable material fabrication approaches.[2]

Keywords

  • Two-dimensional materials
  • Infrared photodetection
  • Topological insulators
  • Wafer-scale synthesis
  • Materials science and engineering
  • Optoelectronic devices
  • Bi2Se3 heterojunctions
  • Broadband photodetectors

Introduction

Research in two-dimensional materials has become increasingly important for the advancement of modern optoelectronic systems, particularly in infrared sensing and high-speed photodetection applications. Tiange Zhao’s academic work contributes to this rapidly evolving field through the synthesis, transfer, and integration of narrow-band materials designed for scalable device fabrication. His research integrates material science principles with device engineering strategies to improve infrared response performance, reduce dark current limitations, and enhance large-scale manufacturability.[3]

Research Profile

Tiange Zhao completed his Bachelor of Science degree in Materials Science and Engineering at Zhengzhou University between 2010 and 2014. He subsequently earned a Master of Science degree in the same discipline from Zhengzhou University during 2015–2018. Zhao later pursued doctoral research in Materials Physics and Chemistry at Sun Yat-sen University from 2019 to 2023.[1]

Since 2023, Zhao has served as a postdoctoral researcher at the Shanghai Institute of Technical Physics, Chinese Academy of Sciences, under the supervision of Professor Weida Hu. His academic specialization encompasses controllable synthesis methods for narrow-band two-dimensional materials and the development of high-performance infrared photodetection mechanisms and devices.[2]

Research Contributions

Zhao’s research contributions include advancements in wafer-scale transfer techniques for two-dimensional materials and substrate engineering methodologies for scalable material growth. His work has explored epitaxial growth strategies for topological insulator materials such as Bi2Se3 and the fabrication of heterojunction structures capable of achieving ultrabroadband infrared responses.[4]

He has also contributed to the development of low dark-current infrared photodetectors and broadband photodetection systems based on Bi2O2Te nanosheets. These investigations support the broader scientific objective of improving optoelectronic device efficiency, scalability, and operational stability in practical sensing applications.[5]

  • Development of wafer-scale transfer techniques for two-dimensional materials
  • Research on substrate engineering strategies for scalable synthesis
  • Investigation of topological insulator-based infrared photodetectors
  • Optimization of low dark-current heterojunction systems
  • Broadband optoelectronic device fabrication and characterization

Publications

Tiange Zhao has authored and coauthored multiple peer-reviewed scientific articles in journals focused on materials science, nanotechnology, and optoelectronics. Selected representative publications are listed below.

  1. Zhao, T., et al. “Wafer-scale transfer of two-dimensional materials with UV tape.” Nature Electronics, 2024, 7, 96–97.
    DOI: https://doi.org/10.1038/s41928-023-01076-6
  2. Zhao, T., et al. “Substrate Engineering for Wafer-scale Two-dimensional Material Growth: Strategies, Mechanisms, and Perspectives.” Chemical Society Reviews, 2023, 52, 1650–1671.
    DOI: https://doi.org/10.1039/D2CS00793A
  3. Zhao, T., et al. “Edge-Dominated Epitaxy of Topological Insulator Bi2Se3 with Ultrabroadband Response.” ACS Nano, 2025, 19, 26055–26064.
  4. Zhao, T., et al. “Topological insulator Bi2Se3 heterojunction with a low dark current for mid-wave infrared photodetection.” ACS Photonics, 2024, 11(6), 2450–2458.
    DOI: https://doi.org/10.1021/acsphotonics.4c00219
  5. Duan, S., Zhao, T.*, et al. “Controlled Synthesis of Bi2O2Te Nanosheets for High-Performance Broadband Photodetectors.” ACS Photonics, 2025, 12(6), 3198–3207.

Research Impact

The research contributions of Tiange Zhao have influenced ongoing developments in scalable two-dimensional material synthesis and infrared optoelectronic technologies. His work on substrate engineering and material transfer methodologies supports improved industrial applicability for two-dimensional semiconductor systems. Publications in high-impact journals, including an ESI Highly Cited Paper in Chemical Society Reviews, reflect recognition within the international scientific community.[2]

In addition to scholarly publications, Zhao has received support through competitive research funding programs, including the China Postdoctoral Science Foundation, the National Postdoctoral Researchers Program, and the Chinese Academy of Sciences Special Research Assistant grant. He also participated in key provincial and municipal joint research projects in Guangdong Province related to basic and applied research.[3]

Award Suitability

Tiange Zhao demonstrates qualifications suitable for recognition in emerging research and advanced materials science award categories. His interdisciplinary research profile combines materials engineering, nanotechnology, and optoelectronics with practical applications in infrared sensing technologies. The combination of high-impact publications, funded research initiatives, and contributions to scalable material synthesis techniques indicates substantial academic and technological relevance within the field of modern optoelectronics.[4]

Conclusion

Tiange Zhao’s research activities contribute to the advancement of two-dimensional material synthesis and infrared optoelectronic device engineering. Through his investigations into wafer-scale growth, topological insulator systems, and broadband photodetection technologies, he has participated in the development of scalable solutions relevant to future photonic and sensing applications. His scholarly output and research funding achievements position him as an emerging contributor within the fields of materials science and optoelectronics.

References

  1. Elsevier. (n.d.). Scopus author details: Tiange Zhao, Author ID 57825529200.
    https://www.scopus.com/authid/detail.uri?authorId=57825529200
  2. Zhao, T., et al. (2023). Substrate Engineering for Wafer-scale Two-dimensional Material Growth: Strategies, Mechanisms, and Perspectives. Chemical Society Reviews.
    DOI: https://doi.org/10.1039/D2CS00793A
  3. Zhao, T., et al. (2024). Wafer-scale transfer of two-dimensional materials with UV tape. Nature Electronics.
    DOI: https://doi.org/10.1038/s41928-023-01076-6
  4. Zhao, T., et al. (2024). Topological insulator Bi2Se3 heterojunction with a low dark current for mid-wave infrared photodetection. ACS Photonics.
    DOI: https://doi.org/10.1021/acsphotonics.4c00219
  5. Duan, S., Zhao, T.*, et al. (2025). Controlled Synthesis of Bi2O2Te Nanosheets for High-Performance Broadband Photodetectors. ACS Photonics.

Tan Wang | Materials Science | Best Researcher Award

Published on by World Science Awards

Dr. Tan Wang | Materials Science | Best Researcher Award

Assistant Researcher from Qingdao Institute of Bio Energy and Bioprocess Technology Chinese Academy of Sciences, China

Wang Tan is an assistant researcher at the Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences. His expertise lies in organic photovoltaic materials and solar energy conversion. With a solid academic background in energy chemistry, he has contributed to high-impact research in polymer donor materials for solar cells. His work has been published in prestigious journals, highlighting his role in advancing renewable energy technologies. He has also secured funding for independent research projects, demonstrating his growing leadership in the field. His contributions extend beyond publications to patents, indicating a strong focus on practical applications.

Professional Profile

Education

Wang Tan obtained his Ph.D. in Energy Chemistry from Xiamen University (2015-2020), where he specialized in photovoltaic materials and device performance. He also earned a bachelor’s degree in Chemistry from Xiamen University (2011-2015), providing him with a strong foundation in material science. His postdoctoral research was conducted at Shanghai Jiao Tong University (2020-2022) and the Qingdao Institute of Bioenergy and Bioprocess Technology, CAS (2022-2024), where he further explored organic solar cells and material synthesis.

Professional Experience

Since January 2025, Wang Tan has been an assistant researcher at the Qingdao Institute of Bioenergy and Bioprocess Technology, working in the Key Laboratory of Solar Photovoltaic Conversion and Utilization. His postdoctoral experience includes research at Shanghai Jiao Tong University (2020-2022) and the Qingdao Institute of Bioenergy and Bioprocess Technology (2022-2024). Throughout his career, he has focused on the design and synthesis of novel organic materials for solar energy applications. His experience extends to leading research projects and collaborating with interdisciplinary teams on high-efficiency photovoltaic materials.

Research Interests

Wang Tan’s research interests primarily focus on organic photovoltaic materials, solar energy conversion, and high-efficiency polymer donor materials. He is particularly interested in developing novel organic semiconductors for next-generation solar cells. His work explores molecular design strategies for enhancing the power conversion efficiency and stability of organic solar cells. Additionally, he investigates charge transfer mechanisms and optoelectronic properties of new photovoltaic materials to improve device performance. His research aims to bridge the gap between fundamental material science and practical applications in renewable energy technologies.

Research Skills

Wang Tan has expertise in the design and synthesis of organic photovoltaic materials, including deep-energy-level donor materials. He is skilled in various characterization techniques such as steady-state and transient fluorescence spectroscopy, electrochemical analysis, and charge transfer studies. His proficiency extends to device fabrication and performance evaluation of organic solar cells. Additionally, he has experience in computational modeling to study molecular interactions and charge dynamics in photovoltaic materials. His multidisciplinary skill set enables him to contribute to both theoretical and experimental advancements in organic solar energy research.

Awards and Honors

Wang Tan has received funding from the Shandong Natural Science Foundation (2023-2026) and the Qingdao Postdoctoral Funding Program (2022-2024) for his work on high-performance organic photovoltaic materials. He has co-authored publications in top-tier journals such as Science Bulletin and Nano Energy, showcasing his research impact. He has also been granted patents for novel polymer materials and conductive nanoparticles in solar energy applications. His contributions to organic solar cell development have been recognized within the scientific community through conference presentations and invited talks.

Conclusion

Wang Tan is a dedicated researcher in the field of organic photovoltaic materials and solar energy conversion. His academic background, research experience, and technical skills position him as a valuable contributor to renewable energy advancements. While he has made significant strides in securing funding and publishing influential research, he has the potential to further establish himself as an independent research leader. Strengthening his role as a principal investigator and securing national-level grants could enhance his impact in the field. His combination of innovation, technical expertise, and research productivity makes him a promising candidate for future advancements in organic solar energy technologies.

Publications Top Notes

  • HOF-Enabled Synthesis of Porous PEDOT as an Improved Electrode Material for Supercapacitor
    Authors: Z. Zhong, Zihan; Q. Shao, Qingqing; B. Ni, Baoxin; A.K. Cheetham, Anthony Kevin; T. Wang, Tiesheng
    Year: 2025