Prof.  Quanbing Guo |Photonics Technology
| Best Researcher Award

 

 Researcher at Wuhan Institute of Quantum Technology, China .

Dr. Quanbing Guo is an accomplished researcher at the Wuhan Institute of Quantum Technology, recognized for his groundbreaking contributions to nonlinear nanophotonics and quantum light-matter interactions. With a Ph.D. in Nanoscale Science and Technology from Wuhan University, Dr. Guo has consistently published in high-impact journals, including Physical Review Letters, Nano Letters, and ACS Photonics. His innovative work on exciton transport, plasmonic nanocavities, and spin-orbit interactions of light significantly advances nanoscale photonics. His scholarly output, interdisciplinary collaborations, and dedication to scientific excellence make him a standout candidate for the Best Researcher Award, highlighting both the impact and relevance of his research in emerging quantum and photonic technologies.

🌍 Professional Profile:

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🏆 Suitability for the Best Researcher Award

Dr. Quanbing Guo is an accomplished researcher at the Wuhan Institute of Quantum Technology, recognized for his groundbreaking contributions to nonlinear nanophotonics and quantum light-matter interactions. With a Ph.D. in Nanoscale Science and Technology from Wuhan University, Dr. Guo has consistently published in high-impact journals, including Physical Review Letters, Nano Letters, and ACS Photonics. His innovative work on exciton transport, plasmonic nanocavities, and spin-orbit interactions of light significantly advances nanoscale photonics. His scholarly output, interdisciplinary collaborations, and dedication to scientific excellence make him a standout candidate for the Best Researcher Award, highlighting both the impact and relevance of his research in emerging quantum and photonic technologies.

🎓 Education 

Dr. Quanbing Guo completed his Ph.D. in Nanoscale Science and Technology at Wuhan University in June 2020, where he developed expertise in photonics, nanomaterials, and quantum technologies. His doctoral research focused on the manipulation of light at the nanoscale, contributing to several pioneering studies in nonlinear optics and nanophotonic materials. Prior to his Ph.D., he earned a B.S. in Physics from Zhengzhou University in June 2015, building a strong foundation in theoretical and experimental physics. This combination of rigorous academic training and cutting-edge research exposure has equipped Dr. Guo with a comprehensive understanding of advanced nanoscience and a multidisciplinary approach to tackling challenges in quantum optics and photonic systems.

🏢 Work Experience 

Dr. Quanbing Guo is currently a researcher at the Wuhan Institute of Quantum Technology (since January 2023), where he leads efforts in nonlinear nanophotonics and quantum light manipulation. Previously, he served as an associate researcher at Tsinghua University (October 2021–December 2022), contributing to major projects on quantum light-matter interactions and exciton dynamics. His postdoctoral training at Shenzhen University (October 2020–October 2021) focused on plasmon-exciton coupling in nanocavities. These roles have equipped him with interdisciplinary research skills and collaborative experience at top Chinese research institutions. Dr. Guo’s professional journey reflects a steady trajectory of growth and innovation in nanophotonics and quantum technologies, making him a vital contributor to the advancement of next-generation optical systems.

🏅 Awards and Honors 

While specific award titles are not listed, Dr. Quanbing Guo’s consistent publication in top-tier journals such as Physical Review Letters, Nano Letters, ACS Photonics, and Light: Science & Applications reflects a high level of peer recognition and scientific impact. His work has been conducted in collaboration with leading scientists and institutions, including Tsinghua University and Wuhan Institute of Quantum Technology, indicating strong professional esteem. The quality and novelty of his research—especially in areas such as nonlinear exciton polaritons and surface plasmon polaritons—are likely to have attracted accolades, research grants, and invitations to collaborate internationally. Dr. Guo’s scientific productivity and influence make him a likely recipient of honors within the fields of nanophotonics and quantum research.

🔬 Research Focus 

Dr. Quanbing Guo’s research focuses on nonlinear nanophotonics, plasmonic nanostructures, and quantum light-matter interactions. He investigates phenomena such as exciton transport enhancement, chiral Raman routing via spin-orbit interaction, and coherent second harmonic generation in nanoscale systems. A key theme in his work is manipulating light at the atomic and nanoscales using materials like WSe₂ and atomically-thin nonlinear crystals. His studies also explore photonic substrates and plasmon-exciton coupling in nanocavities to enable advanced optical functionality. Dr. Guo’s contributions are driving innovation in quantum photonics, paving the way for miniaturized optical devices and efficient energy transport at the nanoscale. His work bridges physics, materials science, and photonic engineering, making him a leader in the next generation of optical research.

📊 Publication Top Notes:

• 1. Zheng, X., Lei, H., Yang, G., Ke, W., Chen, Z., Chen, C., Ma, J., Guo, Q., Yao, F., …
     Title: Enhancing efficiency and stability of perovskite solar cells via a high mobility p-type PbS buffer layer
     Journal: Nano Energy, 38, 1–11, 2017
     Citations: 79

  2. Guo, Q., Fu, T., Tang, J., Pan, D., Zhang, S.P., Xu, H.X.
     Title: Routing a chiral Raman signal based on spin-orbit interaction of light
     Journal: Physical Review Letters, 123(18), 183903, 2019
     Citations: 63

  3. Shi, J.J., Guo, Q., Shi, Z.F., Zhang, S.P., Xu, H.X.
     Title: Nonlinear nanophotonics based on surface plasmon polaritons
     Journal: Applied Physics Letters, 119(13), 2021
     Citations: 36

  4. Ou, Z.W., Wang, T., Tang, J., Zong, X., Wang, W., Guo, Q., Xu, Y., Zhu, C., Wang, L., …
     Title: Enabling and Controlling Negative Photoconductance of FePS3 Nanosheets by Hot Carrier Trapping
     Journal: Advanced Optical Materials, 8(10), 2000201, 2020
     Citations: 28

  5. Wu, K., Zhong, H., Guo, Q., Tang, J., Zhang, J., Qian, L., Shi, Z., Zhang, C., Yuan, S., …
     Title: Identification of twist-angle-dependent excitons in WS2/WSe2 heterobilayers
     Journal: National Science Review, 9(6), nwab135, 2022
     Citations: 21

  6. Guo, Q., Ou, Z.W., Tang, J.B., Zhang, J., Lu, F.Y., Wu, K., Zhang, D.G., Zhang, S.P., Xu, H.X.
     Title: Efficient frequency mixing of guided surface waves by atomically thin nonlinear crystals
     Journal: Nano Letters, 20(11), 7956–7963, 2020
     Citations: 21

  7. Guo, Q., Wu, B.J., Du, R.G., Ji, J.M., Wu, K., Li, Y., Shi, Z.F., Zhang, S.P., Xu, H.X.
     Title: Boosting Exciton Transport in WSe2 by Engineering Its Photonic Substrate
     Journal: ACS Photonics, 9(8), 2817–2824, 2022
     Citations: 17

  8. Zhang, T.Z., Guo, Q., Shi, Z.F., Zhang, S.P., Xu, H.X.
     Title: Coherent Second Harmonic Generation Enhanced by Coherent Plasmon–Exciton Coupling in Plasmonic Nanocavities
     Journal: ACS Photonics, 10(5), 1529–1537, 2023
     Citations: 15

  9. Luo, Y., Zhao, J., Fieramosca, A., Guo, Q., Kang, H., Liu, X., Liew, T.C.H., Sanvitto, D., …
     Title: Strong light-matter coupling in van der Waals materials
     Journal: Light: Science & Applications, 13(1), 203, 2024
     Citations: 14

  10. Wu, K., Zhong, H., Guo, Q., Tang, J., Yang, Z., Qian, L., Yuan, S., Zhang, S., Xu, H.X.
      Title: Revealing the Competition between Defect‐Trapped Exciton and Band‐Edge Exciton Photoluminescence in Monolayer Hexagonal WS2
      Journal: Advanced Optical Materials, 10(6), 2101971, 2022
      Citations: 13