Mingsheng Long | Aerospace applications | Best Researcher Award

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Prof. Mingsheng Long | Aerospace applications | Best Researcher Award

professor, Institute of Physical Science and Information Technology, China

Dr. Mingsheng Long is a Professor and Doctoral Supervisor at the Institute of Physical Science and Information Technology, Anhui University. His expertise lies in low-dimensional quantum optoelectronic devices, infrared detector technology, and spintronic systems. He has led groundbreaking research on 2D material-based infrared detection platforms, securing 12 research grants totaling 9.8 million CNY. Before joining Anhui University, he was an Assistant Researcher at the Shanghai Institute of Technical Physics, CAS, where he pioneered black arsenic-phosphor mid-IR detectors. With 58 publications, an h-index of 31, and over 3,800 citations, his work is widely recognized. He also holds multiple patents in graphene nanoribbons and magnetic IR detection. His research has earned him prestigious national and provincial grants, positioning him as a leading figure in quantum optoelectronics and infrared sensing.

Profile

scholar

Education

Dr. Mingsheng Long completed his Ph.D. in Physics at Nanjing University (2014-2017) under Prof. Feng Miao, where he developed a mid-IR detector with detectivity >10¹⁰ Jones. His dissertation, Quantum Transport Phenomena in 2D Heterostructures, contributed to advancements in infrared optoelectronics. He earned his M.S. in Condensed Matter Physics from South China Normal University (2007-2010), where he studied low-dimensional materials for electronic applications. His research expertise spans quantum transport, van der Waals heterostructures, and spintronics. His strong theoretical and experimental foundation has been crucial in his contributions to infrared detection technology.

Experience

Dr. Long has been a Full Professor at Anhui University since July 2019, where he leads the Quantum Optoelectronics Research Group and develops next-generation 2D infrared detectors. Previously, he was an Assistant Researcher at the Shanghai Institute of Technical Physics, CAS (2017-2019), collaborating with Shanghai Aerospace Systems Engineering Institute on black arsenic-phosphor mid-IR detectors. His work has resulted in multiple high-impact publications in journals such as Advanced Materials and ACS Nano. His expertise in infrared detection and quantum optoelectronics has earned him several national and international research grants, further solidifying his reputation as a leader in the field.

Awards & Honors

Anhui Leading Talent Program Award (2020-2025) 🏆 National Natural Science Foundation of China Grant (2019, 2023) 📜 Best Paper Award – Advanced Materials (2022) 🏅 Shanghai STCSM Innovation Grant (2018-2021) 💡 Highly Cited Researcher – Clarivate Analytics (2021, 2023) 📖 Outstanding Young Scholar Award – Anhui University (2020) 🎓 Editorial Board Member – Frontiers in Materials (Nanoelectronics Section) 📝 Invited Speaker – International Workshop on 2D Materials (2024) 🎤

Research Focus

Dr. Long’s research centers on low-dimensional quantum optoelectronic devices, particularly infrared detector technology for aerospace applications. His pioneering work on van der Waals heterostructure engineering has led to high-performance, low-noise mid-IR detectors. His studies on multi-field coupled spintronic systems aim to develop novel magnetic infrared sensors. His research has direct applications in defense, aerospace, and advanced photonics, making significant contributions to next-generation infrared sensing technologies. His work is supported by major national funding agencies, positioning him as a key innovator in optoelectronics and quantum materials.

Publications

  • Long, M. et al., Adv. Mater. 2022, 34, 2203283 (VIP Paper)
  • Long, M. et al., Adv. Funct. Mater. 2022, 2204230 (Cover Feature)
  • Long, M. et al., Adv. Sci. 2025, 2413844 (Accepted)
  • Long, M. et al., ACS Nano 2019, 13, 2511 (Cited 320+)
  • Long, M. et al., Sci. Adv. 2017, 3, e1700589 (ESI Highly Cited)

Conclusion

Dr. Mingsheng Long is a highly qualified candidate for the Best Researcher Award, given his exceptional contributions to quantum optoelectronics and aerospace technology, strong leadership in securing major research grants, high-impact publications, and innovative patents. Expanding global collaborations and industry partnerships could further strengthen his candidacy for future prestigious awards. 🚀

Di Lan | Microwave absorption | Best Researcher Award

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Dr. Di Lan | Microwave absorption | Best Researcher Award

Associate professor at Hubei University of Automotive Technology,  china

Lan Di, born in Shiyan, Hubei on November 4, 1994, is a lecturer at the Hubei University of Automotive Technology. He holds a PhD in Materials Science from Northwestern Polytechnical University. His research revolves around specialty engineering plastics, polyimide adhesives, and wave-absorbing materials, with notable applications in the military sector. With over 48 SCI papers published, Lan Di has established himself as a prominent figure in his field, earning recognition in Stanford University’s Top 2% Global Scientists list in 2022 and 2023.

Publication Profile

Scholar

Education🎓

Bachelor’s Degree (2012-2016) in Polymer Science and Engineering from Hubei University Master’s Student (2016-2019) in Materials Science at Northwestern Polytechnical University. Doctoral Candidate (2019-2022) in Materials Science at Northwestern Polytechnical University. Throughout his academic career, Lan focused on high-temperature adhesives and wave-absorbing materials, publishing extensively in renowned scientific journals and earning over 2,200 citations on Google Scholar.

Experience🧑‍🏫 

Lecturer (2023-present) at the Polymer Department, Hubei University of Automotive Technology, where Lan teaches and continues his cutting-edge research in polymer materials and high-temperature adhesives. Doctoral Candidate (2019-2022) at Northwestern Polytechnical University, where he published 48 SCI papers and worked on groundbreaking research in wave-absorbing materials and high-entropy alloys aster’s Student (2016-2019) focused on the study of engineering plastics and modified PTFE gaskets for military applications.

Awards and Honors🔬 

Global Top 2% Scientist (2022, 2023) by Stanford University for outstanding contributions in polymer materials research. First Prize for the Most Influential Paper Award from the Chinese Physical Society in 2021. Highly cited researcher with 4 ESI Hot Papers and 8 highly cited ESI papers. Filed three patent applications in the field of polyimide adhesives and wave-absorbing materials.

Research Focus🔬 

Specialty Engineering Plastics: Focus on polyimide high-temperature adhesives and modified PTFE gaskets used in military engines and motor seals. High-Temperature Adhesives: Developing polyimide adhesives for high-energy motor rotors. Wave-Absorbing Materials: Expertise in high-entropy alloys and ceramics, leading projects on polymer-based wave-absorbing materials. Published extensively in SCI journals, contributing to innovations in military and industrial applications of polymers.

Publication  Top Notes

Facile synthesis of hierarchical chrysanthemum-like copper cobaltate-copper oxide composites for enhanced microwave absorption performance
📖 Journal of Colloid and Interface Science, 533, 481-491 (2019), 211 citations
Co-authors: M Qin, R Yang, S Chen, H Wu, Y Fan, Q Fu, F Zhang.

Novel binary cobalt nickel oxide hollowed-out spheres for electromagnetic absorption applications
📖 Chemical Engineering Journal, 382, 122797 (2020), 205 citations
Co-authors: M Qin, J Liu, G Wu, Y Zhang, H Wu.

Progress in low-frequency microwave absorbing materials
📖 Journal of Materials Science: Materials in Electronics, 29, 17122-17136 (2018), 201 citations
Co-authors: Z Jia, K Lin, M Qin, K Kou, G Wu, H Wu.

Simultaneous manipulation of interfacial and defects polarization toward Zn/Co phase and ion hybrids for electromagnetic wave absorption
📖 Advanced Functional Materials, 31(50), 2106677 (2021), 194 citations
Co-authors: Z Gao, L Zhang, H Wu.

Synergistic Polarization Loss of MoS2-Based Multiphase Solid Solution for Electromagnetic Wave Absorption
📖 Advanced Functional Materials, 32(18), 2112294 (2022), 167 citations
Co-authors: Z Gao, Z Ma, Z Zhao, L Zhang, H Wu, Y Hou.

Conclusion

Lan Di is an exceptionally qualified candidate for the Best Researcher Award, with a strong track record in high-impact publications, patent filings, and leadership roles within the scientific community. His specialized focus on high-entropy alloys, specialty engineering plastics, and wave-absorbing materials places him at the forefront of critical fields in materials science. While there are opportunities to broaden his impact through further industry collaborations and interdisciplinary research, his current accomplishments make him highly deserving of this award.