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材料科学与工程

姓名:张春焕

职称:教授

导师类型:博导

团队名称:光电智感团队

邮箱:

zhangchunhuan@bit.edu.cn

研究领域

低维光电材料可控合成及光子学性质研究

教育经历

2012/09—2017/07 博士,物理化学,中国科学院化学研究所,光化学实验室               导师:赵永生 研究员 姚建年 院士

2008/09—2012/07 学士,应用化学,东北师范大学 化学学院

工作经历

2025/10—至今 准聘教授,博士生导师,北京理工大学

2022/06—2025/9 助理教授/副研究员,硕士生导师,北京理工大学

2018/07—2022/05 博新计划博士后,中国科学院化学研究所,光化学实验室 合作教授:姚建年 院士

2017/07—2018/06 助理研究员,中国科学院化学研究所,光化学实验室 合作教授:赵永生研究员

学术成果

  1. C. Zhang*, Y. S. Zhao*, Flexible Photonic Materials and Devices: Synthetic Strategies, Sensing Properties, and Wearable Applications, Adv. Mater. 2025, 37, 2415856.
  2. C. Zhang, H. Dong, C. Zhang, Y. Fan, J. Yao, Y. S. Zhao*. Photonic skins based on flexible organic microlaser arrays. Sci. Adv., 2021, 7, eabh3530.
  3. C. Zhang, C.-L. Zou, H. Dong, Y. Yan, J. Yao, Y. S. Zhao*. Dual-color single-mode lasing in axially coupled organic nanowire resonators. Sci. Adv., 2017, 3, e1700225.
  4. C. Zhang, F.-J. Shu, C.-L. Zou, H. Dong*, J. Yao, Y. S. Zhao*. Organic Synthetic Photonic Systems with Reconfigurable Parity-time Symmetry Breaking for Tunable Single-mode Microlasers. Adv. Mater., 2023, 35, 2300054.
  5. Y. Fan, C. Zhang*, Z. Gao, W. Zhou, Y. Hou, Z. Zhou, J. Yao, Y. S. Zhao*. Randomly Induced Phase Transformation in Silk Protein-Based Microlaser Arrays for Anticounterfeiting. Adv. Mater., 2021, 33, 2102586.
  6. C. Qiao, C. Zhang*, Z. Zhou, H. Dong, Y. Du, J. Yao, Y. S. Zhao*. A Photoisomerization-Activated Intramolecular Charge-Transfer Process for Broadband-Tunable Single-Mode Microlasers. Angew. Chem. Int. Ed., 2020, 59, 15992-15996.
  7. C. Zhang, H. Dong, Y. S. Zhao*. Rational Design, Controlled Fabrication, and Photonic Applications of Organic Composite Nanomaterials. Adv. Opt. Mater., 2018, 6, 1701193.
  8. C. Qiao, C. Zhang*, Z. Zhou, J. Yao, Y. S. Zhao*. An Optically Reconfigurable Förster Resonance Energy Transfer Process for Broadband Switchable Organic Single-Mode Microlasers. CCS Chem., 2022, 4, 250-258.
  9. Y. Fan, C. Zhang*, Y. Du, C. Qiao, K. Wang, Y. Hou, J. Yao, Y. S. Zhao*. A Universal In Situ Cross-Linking Strategy Enables Orthogonal Processing of FullColor Organic Microlaser Arrays. Adv. Funct. Mater., 2021, 31, 2103031.
  10. W. Dong, C. Zhang*, H. Dong, Z. Zhou, J. Yao, Y. S. Zhao*. Realization of Single-Crystal Dye Lasers by Taming Charge Transfer in Molecular Self-Assemblies. ACS Nano, 2022, 16, 12345-12351.
  11. Y. Zhu, L. Ji, C. Li, C. Zhang*, J. T. Zhang* Fluorescence Enhancement of CdS:Ag Quantum Dots Co-Assembled with Au Nanoparticles in a Hollow Nanosphere Form. Langmuir, 2024, 40, 11642-11649.
  12. H. Dong#, C. Zhang#, F. J. Shu, C. L. Zou, Y. Yan, J. Yao, Y. S. Zhao*. Superkinetic Growth of Oval Organic Semiconductor Microcrystals for Chaotic Lasing. Adv. Mater., 2021, 33, 2100484.
  13. Y. Guan, C. Zhang#, Z. Liu, Y. Zhao, A. Ren, J. Liang, F. Hu, Y. S. Zhao*. Single-Crystalline Perovskite p-n Junction Nanowire Arrays for Ultrasensitive Photodetection. Adv. Mater., 2022, 34, 2203201.
  14. H. Dong, C. Zhang#, W. Nie, S. Duan, C. N. Saggau, M. Tang, M. Zhu, Y. S. Zhao*, L. Ma, O. G. Schmidt. Interfacial Chemistry Triggers Ultrafast Radiative Recombination in Metal Halide Perovskites. Angew. Chem. Int. Ed., 2022, 61, e202115875.
  15. W. Zhou, C. Zhang#, A. Ren, H. Dong*, J. Yao, Y. S. Zhao*. Responsive Liquid-Crystal Microlaser Array with Tactile Perception. Adv. Opt. Mater., 2023, 11, 2202879.
  16. Z. Liu, C. Zhang#, X. Liu, A. Ren, Z. Zhou, C. Qiao, Y. Guan, Y. Fan, F. Hu, Y. S. Zhao*. Chiral Hybrid Perovskite Single-Crystal Nanowire Arrays for High-Performance Circularly Polarized Light Detection. Adv. Sci., 2021, 8, 2102065.
  17. H. Dong, C. Zhang#, W. Zhou, J. Yao, Y. S. Zhao*. Differential Polymer Chain Scission Enables Free-Standing Microcavity Laser Arrays. Adv. Mater., 2022, 34, 2107611.
  18. Y. Zhang, C. Zhang#, Y. Fan, Z. Liu, F. Hu, Y. S. Zhao*. Smart Protein-Based Biolasers: An Alternative Way to Protein Conformation Detection. ACS App. Mat. Interfaces, 2021, 13, 19187-19192.
  19. H. Dong, C. Zhang#, Y. Liu, Y. Yan, F. Hu, Y. S. Zhao*. Organic Microcrystal Vibronic Lasers with Full-Spectrum Tunable Output beyond the Franck-Condon Principle. Angew. Chem. Int. Ed., 2018, 57, 3108-3112.