1. 代表性论文
[1] J. Li, B. Sheng, Y. Chen, J. Yang, P. Wang, Y. Li, T. Yu, H. Pan, L. Qiu, Y. Li, J. Song, L. Zhu, X. Wang, Z. Huang and B. Zhou, Utilizing full-spectrum sunlight for ammonia decomposition to hydrogen over GaN nanowires-supported Ru nanoparticles on silicon, Nature Communications 15 (1), 7393 (2024).
[2] J. L. Li, B. W. Sheng, L. Qiu, J. J. Yang, P. Wang, Y. X. Li, T. Q. Yu, H. Pan, Y. Li, M. H. Li, L. Zhu, X. Q. Wang, Z. Huang and B. W. Zhou, Photo-thermal synergistic CO2 hydrogenation towards CO over PtRh bimetal-decorated GaN nanowires/Si, Chemical Science 15 (20), 7714-7724 (2024).
[3] J. L. Li, B. W. Sheng, Y. Q. Chen, J. J. Yang, P. Wang, Y. X. Li, T. Q. Yu, H. Pan, J. Song, L. Zhu, X. Q. Wang, T. Ma and B. W. Zhou, An Active and Robust Catalytic Architecture of NiCo/GaN Nanowires for Light-Driven Hydrogen Production from Methanol, Small 20 (25), 9 (2024).
[4] Z. Z. Wang, Y. Q. Chen, B. W. Sheng, J. L. Li, L. Yao, Y. Yu, J. Song, T. Q. Yu, Y. X. Li, H. Pan, P. Wang, X. Q. Wang, L. Zhu and B. W. Zhou, Air-Promoted Light-Driven Hydrogen Production from Bioethanol over Core/Shell Cr2O3@GaN Nanoarchitecture, Angewandte Chemie-International Edition 63 (16), 10 (2024).
[5] Z. Wang, B. Sheng, Y. Chen, S. M. Sadaf, J. Li, J. Yang, J. Song, L. Yao, Y. Yu, L. Zhu, X. Wang, Z. Huang and B. Zhou, Photocatalytic syngas production from bio-derived glycerol and water on AuIn-decorated GaN nanowires supported by Si wafer, Green Chemistry 25(1), 288-295, (2023)
[6] J. L. Li, B. W. Sheng, Y. Q. Chen, J. J. Yang, T. Ma, C. You, Y. X. Li, T. Q. Yu, J. Song, H. Pan, X. Q. Wang and B. W. Zhou, Nickel-Iron Bimetal as a Cost-Effective Cocatalyst for Light-Driven Hydrogen Release from Methanol and Water, ACS Catalysis 13(15), 10153-10160, (2023)
[7] J. L. Li, B. W. Sheng, Y. Q. Chen, S. M. Sadaf, J. J. Yang, P. Wang, H. Pan, T. Ma, L. Zhu, J. Song, H. Lin, X. Q. Wang, Z. Huang and B. W. Zhou, Oxynitride-surface engineering of rhodium-decorated gallium nitride for efficient thermocatalytic hydrogenation of carbon dioxide to carbon monoxide, Communications Chemistry 5(1), 107 (2022).
[8] H. P. Liu, B. W. Sheng, T. Wang, K. Kudryavtsev, A. Yablonskiy, J. Q. Wei, A. Imran, Z. Y. Chen, P. Wang, X. T. Zheng, R. C. Tao, X. L. Yang, F. J. Xu, W. K. Ge, B. Shen, B. Andreev and X. Q. Wang, Infrared stimulated emission with an ultralow threshold from low-dislocation-density InN films grown on a vicinal GaN substrate, Fundamental Research 2(5), 794-798, (2022)
[9] B. Sheng, F. Bertram, G. Schmidt, P. Veit, M. Müller, P. Wang, X. Sun, Z. Qin, B. Shen, X. Wang and J. Christen, Cathodoluminescence nano-characterization of individual GaN/AlN quantum disks embedded in nanowires, Applied Physics Letters 117 (13), (2020)
[10] B. W. Sheng, G. Schmidt, F. Bertram, P. Veit, Y. X. Wang, T. Wang, X. Rong, Z. Y. Chen, P. Wang, J. Blasing, H. Miyake, H. W. Li, S. P. Guo, Z. X. Qin, A. Strittmatter, B. Shen, J. Christen and X. Q. Wang, Individually resolved luminescence from closely stacked GaN/AlN quantum wells, Photonics Research 8 (4), 610-615 (2020)
[11] B. W. Sheng, F. Bertram, X. T. Zheng, P. Wang, G. Schmidt, P. Veit, J. Blaesing, Z. Y. Chen, A. Strittmatter, J. Christen, B. Shen and X. Q. Wang, Intensive luminescence from a thick, indium-rich In0.7Ga0.3N film, Japanese Journal of Applied Physics 58 (6), (2019)
2.主要项目经历
主持国家自然科学基金青年科学基金项目1项,参与科技部重点研发计划2项,国家自然科学基金国家重大科研仪器研制项目1项等
