胡泽华
微电子与光电子学系
胡泽华微电子与光电子学系 |
个人简历
胡泽华(助理教授/博士生导师) 本科和博士分别毕业于港澳宝典资料大全物理系和新加坡国立大学物理系,随后在南洋理工大学应用物理系熊启华教授(美国光学会会士、美国物理学会会士、美国材料研究学会会士、亚太材料科学院院士)课题组开展博士后工作。主要的研究兴趣是半导体与微纳结构的耦合相互作用、超快光生载流子动力学和低维半导体光电器件物理。以第一作者在Nat. Commun.、Adv. Mater.、ACS Nano、Nano Lett.、Angew. Chemie.等刊物发表论文14篇,在Nat. Mater.、Nat. Commun.等刊物合作发表论文16篇。3篇论文入选“ESI高被引”,3篇论文被选为封面,1篇论文被选为“Hot Paper”。引用2700余次,担任Nano Lett.、App. Phys. Lett.、NPJ 2D Mater. Appl.等国际期刊独立审稿人,多次作邀请报告,获2023年度Nano-Micro Letters青年科学家奖、2018年度国家优秀自费留学生奖学金、国际会议最佳墙报奖3次。 研究方向
半导体与微纳结构的耦合相互作用、低维半导体光电器件物理和超快载流子动力学 主要课程
代表成果
预印: 1.Hu, Z.* et al., Energy Transfer Driven Brightening of MoS2 by Ultrafast Polariton Relaxation in Microcavity MoS2/hBN/WS2 Heterostructures Nature Communications, 2024 (accepted) 2. Hu, Z.#; Li, Q.#; Lei, B.; Wu, J.; Zhou, Q.; Gu, C.; Wen, X.; Wang, J.; Liu, Y.; Li, S.; Zheng, Y.; Lu, J.; He, J.; Wang, L.; Xiong, Q.; Wang, J.*; Chen, W.*, Abnormal Near-Infrared Absorption in 2D Black Phosphorus Induced by Ag Nanoclusters Surface Functionalization. Advanced Materials 2018,30 (43), e1801931. (被选为卷首页) 3. Hu, Z.#; Li, Q.#; Lei, B.; Zhou, Q.; Xiang, D.; Lyu, Z.; Hu, F.; Wang, J.; Ren, Y.; Guo, R.; Goki, E.; Wang, L.; Han, C.; Wang, J.*; Chen, W.*, Water-Catalyzed Oxidation of Few-Layer Black Phosphorous in a Dark Environment. Angewandte Chemie 2017,56 (31), 9131-9135. (被选为热点文章,中文报道:https://www.x-mol.com/news/10434) 4. Hu, Z.#; Wu, Z.#; Han, C.; He, J.; Ni, Z.*; Chen, W.*, Two-Dimensional Transition Metal Dichalcogenides: Interface and Defect Engineering. Chemical Society Reviews 2018,47 (9), 3100-3128. (被选为背封面,引用214次,ESI高被引。中文报道:http://www.x-mol.com/news/12257). 5. Hu, Z.; Hernandez-Martinez, P. L.; Liu, X.; Amara, M. R.; Zhao, W.; Watanabe, K.; Taniguchi, T.; Demir, H. V.; Xiong, Q.*, Trion-Mediated Forster Resonance Energy Transfer and Optical Gating Effect in WS2/hBN/MoSe2 Heterojunction. ACS Nano 2020, DOI: 10.1021/acsnano.0c05447. 6. Hu, Z.; Guo, R.#; Zhang, J.; Lai, M.; He, J.; Wang, L.; Chen, W.*, Two-Dimensional Black phosphorus: its Fabrication, Functionalization and Applications. Nanoscale 2018,10 (46), 21575-21603. 8. Han, C.#; Hu, Z.#; Gomes, L. C.; Bao, Y.; Carvalho, A.; Tan, S. J. R.; Lei, B.; Xiang, D.; Wu, J.; Qi, D.; Wang, L.; Huo, F.; Huang, W.; Loh, K. P.; Chen, W.*, Surface Functionalization of Black Phosphorus via Potassium toward High-Performance Complementary Devices. Nano Letters 2017,17 (7), 4122-4129. 9. Lei, B.#; Pan, Y.#; Hu, Z.#; Zhang, J.; Xiang, D.; Zheng, Y.; Guo, R.; Han, C.; Wang, L.; Lu, J.; Yang L.*; Chen W.*, Direct Observation of Semiconductor-Metal Phase Transition in Bilayer Tungsten Diselenide Induced by Potassium Surface Functionalization. ACS Nano2018, 12(2), 2070-2077 10. Zhang, J. L.#; Han, C.#; Hu, Z.#; Wang, L.; Liu, L.; Wee, A. T. S.; Chen, W.*, 2D Phosphorene: Epitaxial Growth and Interface Engineering for Electronic Devices. Advanced Materials 2018,30 (47), e1802207. 11. Han, C.#; Hu, Z.#; Carvalho, A.; Guo, N.; Zhang, J.; Hu, F.; Xiang, D.; Wu, J.; Lei, B.; Wang, L.; Zhang C.; H Castro Neto, A.; Chen W.*, Oxygen Induced Strong Mobility Modulation in Few-Layer Black Phosphorus. 2D Materials2017,4 (2), 021007. 12. Lei, B.#; Hu, Z.#; Xiang, D.; Wang, J.; Eda, G.; Han, C.; Chen, W.*, Significantly Enhanced Optoelectronic Performance of Tungsten Diselenide Phototransistor via Surface Functionalization. Nano Research2017,10 (4), 1282-1291. 13. Zheng, Y.#; Hu, Z.#; Han, C.; Guo, R.; Xiang, D.; Lei, B.; Wang, Y.; He, J.; Lai, M.; Chen, W.*, Black Phosphorus Inverter Devices Enabled by In-Situ Aluminum Surface Modification. Nano Research 2018,12 (3), 531-536. 14. Li, S.; Lin, Y. C.; Zhao, W.; Wu, J.; Wang, Z.; Hu, Z.; Shen, Y.; Tang, D. M.; Wang, J.; Zhang, Q.; Zhu, H.; Chu, L.; Zhao, W.; Liu, C.; Sun, Z.; Taniguchi, T.; Osada, M.; Chen, W.; Xu, Q. H.; Wee, A. T. S.; Suenaga, K.; Ding, F.; Eda, G.*, Vapour-Liquid-Solid Growth of Monolayer MoS2 Nanoribbons. Nature Materials 2018, 17 (6), 535-542. (引用117次,ESI高被引) 15. Xiang, D.; Liu, T.; Xu, J.; Tan, J. Y.; Hu, Z.; Lei, B.; Zheng, Y.; Wu, J.; Neto, A. H. C.; Liu, L.; Chen, W.*, Two-Dimensional Multibit Optoelectronic Memory with Broadband Spectrum Distinction. Nature Communications 2018,9 (1), 2966. |
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