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个人简介

研究项目 中组部,国家海外高层次人才青年项目,2019-05至2022-05,300万元,在研,主持“增材制造与激光制造”重点专项项目:面向XXXXXXXX激光制造技术与装备(应用示范类)项目课题一,2019-2022,在研,主持 成果及荣誉 2019年度“师缘北理”教师表彰大会优秀人才类表彰

研究领域

主要从事飞秒激光非线性光谱、成像研究。利用飞秒激光泵浦-探测光谱、瞬态吸收显微成像、超快荧光光谱及成像技术、时间分辨荧光动力学等方法研究超快激光微纳制造过程中光子-材料相互作用机制,用于解决国家重大需求中的微纳制造基础前沿问题。研究半导体材料及光电器件中的“纳米-微米级空间尺度”和“飞秒-微秒级时间尺度”内的载流子传输、电荷转移和能量传递等过程及其机制

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Zhu,T.; Snaider, J.; Yuan, L.; Huang,L.*, Ultrafast Dynamic Microscopy of Carrier and Exciton Transport. Annual Review of Physical Chemistry 2019, 70, 249-274. (IF=11.982) Zhu, T.#; Yuan, L.#; Zhao, Y.; Zhou, M.; Wan, Y.; Mei, J.; Huang, L.*, Highly Mobile Charge-transfer Excitons in Two-dimensional WS2/tetracene Heterostructures. Science Advances 2018: 4; eaao3104. (IF=12.804) Zhu, T.; Huang, L.*, Exciton Transport in Singlet Fission Materials: A New Hare and Tortoise Story. The Journal of Physical Chemistry Letters, 2018, 9, 6502-6510 (IF=7.329) 封面文章 Zhu, T.#; Wan, Y.#; Huang, L.*, Direct Imaging of Frenkel Exciton Transport by Ultrafast Microscopy. Accounts of Chemical Research 2017, 50 (7), 1725–1733 (IF=21.661) Zhu, T.#; Wan, Y.#; Guo, Z.; Johnson, J.; Huang, L.*, Two Birds with One Stone: Tailoring Singlet Fission for Both Triplet Yield and Exciton Diffusion Length. Advanced Materials 2016, 28 (34), 7539-7547. (IF=25.809) Wan, Y.; Guo, Z.; Zhu, T.; Yan, S.; Johnson, J.; Huang, L.*, Cooperative Singlet and Triplet Exciton Transport in Tetracene Crystals Visualized by Ultrafast Microscopy. Nature Chemistry 2015, 7 (10), 785-792. (IF=23.193) 封面文章 Guo, Z.; Wu, X.; Zhu, T.; Zhu, X-Y.; Huang, L.* Electron–Phonon Scattering in Atomically Thin 2D Perovskites. ACS nano 2016, 10 (11), 9992-9998 (IF=13.903) Yuan, L.; Wang, T.; Zhu, T.; Zhou, M.; Huang, L.* Exciton Dynamics, Transport, and Annihilation in Atomically Thin 2D Semiconductors. The Journal of Physical Chemistry Letters. 2017, 8, 14, 3371-3379 (IF=7.329) Oleson, A.#; Zhu,T.#; Dunn, I.; Bai, Y.; Zhang, W.; Dai, M.; Reichman, D.; Tempelaar, R.; Huang, L.; Spano, F. *, Perylene Diimide-Based Hj- and hJ-Aggregates: The Prospect of Exciton Band Shape Engineering in Organic Materials. The Journal of Physical Chemistry C 2019, 123, 33, 20567-20578 (IF=4.309)

学术兼职

北京理工大学学报(英文版)编委

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