吴丹 副教授

个人介绍：

面向先进光子集成国家战略新兴领域,带领团队开展高集成、高亮度的新型电致发光器件研究，包括高亮度量子点圆偏振电致发光器件、低缺陷态密度单晶薄膜原位异质可控生长技术、器件光子高效耦合输出技术等。主持国家级项目2项(国自然面上基金和青年基金各1项)、主持省部级项目3项、主持市级项目2项等;作为主要成员参与广东省普通高校功能薄膜与电子器件创新团队、深圳市超金刚石与功能晶体应用技术重点实验室等。在Nature、Advanced Materials、Light: Science & Applications等国际高水平学术期刊共发表SCI收录论文83篇，申请/授权中国发明专利21项,实用新型专利11项。现为Light: Science & Applications、Optics Express、《中国激光》、《光学学报》等国内外著名学术期刊审稿人。

教育背景：

2013.08-2018.01新加坡南洋理工大学,电气与电子工程学院，博士

2009.09-2011.06华中科技大学，光电子科学与工程学院,光学工程专业，硕士

2005.09-2009.06哈尔滨工业大学,航天学院,电子科学与技术专业，本科

工作经历：

2022.12-至今深圳技术大学，新材料与新能源学院，副教授/副系主任

2020.12-2022.11深圳技术大学，新材料与新能源学院，助理教授

2018.07-2020.11南方科技大学,前沿与交叉科学研究院,电子与电气工程系,研究助理教授

主要荣誉：

1.深圳市孔雀计划C类人才

2.深圳市南山区领航人才

3.深圳技术大学润园青年PI

4.Asia Innovation Forum Young Entrepreneur Award, Asia Innovation Forum Committee, Tokyo, Japan (亚洲创新论坛青年创业奖,获奖率2.5%, 6/237,全亚洲6人), 2012

5.中国石油和化学工业优秀出版物奖·图书奖一等奖,《Freeform Optics for LED Packages and Applications (LED封装与应用中的自由曲面光学技术)》, 2021

6.Young Scientist Award, 7th International Conference on Electronics Technology, Chengdu, China (第七届电子技术国际会议·最佳青年科学家奖,获奖率2/300), 2024

7.第三届纳米光电材料与半导体器件发展论坛·科学探索奖,北京(获奖率5/232), 2024

8.深圳技术大学“优秀科研工作者”(全校六人获奖, 6/1172), 2022

研究方向：

1.先进光子集成中的室温无磁场圆偏振电致发光器件

2.微纳结构光场调控、逆向纳米光子学优化算法开发

3.硅基片上量子点激光

4.光电融合芯片中的光场探测技术

科研项目：

主持的项目

[1]主持,国家自然科学基金 面上项目

[2]主持,国家自然科学基金 青年基金

[3]课题负责人, 2019年度国家重点研发计划重点专项

[4]主持,广东省教育厅特色创新项目

[5]主持,广东省自然科学基金面上项目

[6]主持,深圳市基础研究面上项目

[7]主持,深圳市稳定支持面上项目

代表论文：

A.著作

[1].Book. Kai Wang, Sheng Liu, Xiaobing Luo andDan Wu, Freeform Optics for LED Packages and Applications, John Wiley & Sons和化学工业出版社, ISBN: 978-7-122-33497-8, 2020.01. (成功入选“十三五”国家重点图书,获得2021年中国石油和化学工业优秀出版物奖图书奖一等奖)

B.期刊论文*通讯作者, #共同第一作者

2025

[1]Y. Tan, Y. Huang,D. Wu^*, Y. Wang, X. W. Sun^*, H. W. Choi^*, and K. Wang^*, "Low-threshold surface-emitting colloidal quantum-dot circular Bragg laser array,"Light: Science & Applications, vol. 14, no. 1, pp. 36, 2025.

[2]T. Ye, D. Tian,D. Wu^*, X. W. Sun, and K. Wang^*, "Submicron quantum dot light-emitting diodes enabled by pixelated topological meta-mirror,"Nanophotonics, vol. 14, no. 2, pp. 241-251, 2025. (封面文章)

[3]T. Ye,D. Wu^*, and K. Wang^*, "High efficiency and large angle polarization independent beam deflection metagrating by Bayesian optimization,"Optics Express, vol. 33, no. 2, pp. 2759-2771, 2025.

[4]D. Wu^#*, G. Xu^#, J. Tan, X. Wang, Y. Zhang, L. Ma^*, W. Chen^*, and K. Wang, "Nanophotonic structures energized short-wave infrared quantum dot photodetectors and their advancements in imaging and large-scale fabrication techniques,"Nanoscale, 2025 (https://doi.org/10.1039/D4NR03601H)

2024

[5]D. Wu^#*, H. Zhang^#, Z. Wang, Y. Zhang, G. Zhang^*, K. Wang, and C. Z. Ning^*, "Advances in perovskite single crystal thin films: synthesis methods and applications in photodetection,"Advanced Optical Materials, vol. 12, no. 28, pp. 2401131, 2024.

[6]H. Zhu^#, Q. Wang^#, W. Chen, K. Sun, H. Zhong, T. Ye, Z. Wang, W. Zhang, P. Müller-Buschbaum, X. W. Sun,D. Wu^*, and K. Wang^*, "Chiral perovskite-CdSe/ZnS QDs composites with high circularly polarized luminescence performance achieved through additive-solvent engineering,"Journal of Chemical Physics, vol. 160, no. 23, pp. 234703, 2024.

[7]G. Xu^#, H. Chen^#, H. Lin, X. Liu, B. Li, W. Chen,D. Wu^*, and L. Ma^*, "Synthesis guidance of PbS colloidal quantum dots with neural network model for short wave infrared photodetector,"Optical Materials, vol. 157, no. 2024, pp. 116069, 2024.

[8]Z. Song, T. Cao, X. Wang, Y. Tan, J. Wu, Z. Wang, H. Zhu, F. Fang,D. Wu^*, W. Chen^*, K. Wang^*, "Reducing dark current density of PbS quantum dot short-wave infrared photodetectors by polymer buffer layer modification,"IEEE Electron Device Letters, vol. 45, no. 12, pp. 2455-2458, 2024.

[9]D. Wu^#, Z. Lu^#, J. Tan, T. Lin, Y. Liu^*, and K. Wang, "A feedback analytic algorithm for maximal solar energy harvesting of InP stepped nanocylinders,"IEEE Photonics Journal, vol. 16, no.1, pp. 1-9, 2024.

2023

[10]Q. Wang^#, H. Zhu^#, Y. Tan^#, J. Hao, T. Ye, H. Tang, Z. Wang, J. Ma, J. Sun, T. Zhang, F. Zheng, W. Zhang, A. H. W. Choi, W. C. H. Choy,D. Wu^*, X. W. Sun, and K. Wang^*, "Spin quantum dot light-emitting diodes enabled by two-dimensional chiral perovskite with spin-dependent carrier transport,"Advanced Materials, vol. 36, no. 5, pp. 2305604, 2023.

[11]Q. Wang^#, H. Zhu^#, W. Chen, J. Hao, Z. Wang, J. Tang, Y. Yang, X. W. Sun,D. Wu^*, and K. Wang^*, "Strong circularly polarized luminescence from quantum dots/2D chiral perovskites composites,"Nano Research, vol. 16, no. 5, pp. 7593-7599, 2023.

[12]Z. Wang, C. Shan, C. Liu, X. Tang, D. Luo, H. Tang, Z. Song, J. Wang, Z. Ren, J. Ma, H. Wang, J. Sun, N. Zhang, W. C. H. Choy, Y. Liu, A. K. K. Kyaw, X. W. Sun,D. Wu^*, and K. Wang^*, "In situ growth of perovskite single-crystal thin films with low trap density,"Cell Reports Physical Science, vol. 4, no. 4, pp. 101363, 2023.

[13]D. Wu^#, G. Du^#, H. Liu, W. Chen, X. Li, Z. Wang, H. Tang, B. Liu, C. Liu, Y. Chen, Z. Song, W. Deng, H. Yuan^*, K. Wang^*, and X. Zhao^*, "Flexible microcomb printed PbS quantum dot film enables scalable fabrication of near infrared photodetector,"Advanced Optical Materials, vol. 11, no. 23, pp. 2300945, 2023.

[14]D. Wu^*#, Y. Zhang^#, C. Liu, Z. Sun, Z. Wang, Z. Lin, M. Qiu, D. Fu, and K. Wang, "Recent progress of narrowband perovskite photodetectors: fundamental physics and strategies,"Advanced Devices & Instrumentation, vol. 4, pp. 0006, 2023.

[15]H. Zhu^#, Q. Wang^#, K. Sun, W. Chen, J. Tang, J. Hao, Z. Wang, J. Sun, W. C. H. Choy, P. Müller-Buschbaum, X. W. Sun,D. Wu^*, and K. Wang^*, "Solvent modulation of chiral perovskite films enables high circularly polarized luminescence performance from chiral perovskite/quantum dot composites,"ACS Applied Materials & Interfaces, vol. 15, no. 7, pp. 9978-9986, 2023.

2022

[16]X. Tang^#, Z. Wang^#,D. Wu^*, Z. Wu, Z. Ren, R. Li, P. Liu, G. Mei, J. Sun, J. Yu, F. Zheng, W. C. H. Choy, R. Chen, X. W. Sun, F. Yang^*, and K. Wang^*, "In situ growth mechanism for high-quality hybrid perovskite single-crystal thin films with high area to thickness ratio: looking for the sweet spot,"Advanced Science, vol. 9, no. 13, pp. 2104788, 2022.

[17]T. Ye^#,D. Wu^#, Q. Wu, X. W. Sun, H. Liang^*, K. Wang^*, and M. Hong^*, "Realization of inversely designed metagrating for highly efficient large angle beam deflection,"Optics Express, vol. 30, no.5, pp.7566-7579, 2022.

[18]X. Xiao^#, T. Ye^#, J. Sun, X. Qu, Z. Ren,D. Wu^*, S. Ding, X. W. Sun, Wallace C. H. Choy^*, and K. Wang^*, "Capacitance-voltage characteristics of perovskite light-emitting diodes: modeling and implementing on the analysis of carrier behaviors,"Applied Physics Letters, vol. 120, no. 24, pp. 243501, 2022.

[19]D. Wu^#*, H. Zhang^#, H. Liu, W. Li, X. Xiao, K. Shi, T. Ye, J. Sun, Z. Lin, J. Liu, M. Qiu, A. K. K. Kyaw, and K. Wang, "Revealing the hidden mechanism of enhanced responsivity of doped p-i-n perovskite photodiodes via coupled opto-electronic model,"Molecules, vol. 27, no. 19, pp. 6223, 2022.

[20]T. Ye^#, S. Jia^#, Z. Wang, R. Cai, H. Yang, F. Zhao, Y. Tan, X. W. Sun,D. Wu^*, and K. Wang, "Fabrication of highly efficient perovskite nanocrystal light-emitting diodes via inkjet printing,"Micromachines, vol. 13, no. 7, pp. 983, 2022.

2021

[21]D. Ma, K. Lin, Y. Dong, H. Choubisa, A. H. Proppe,D. Wu, Y. K. Wang, B. Chen, P. Li, J. Z. Fan, F. Yuan, A. Johnston, Y. Liu, Y. Kang, Z. H. Lu, Z. Wei^*, and E. H. Sargent^*, "Distribution control enables efficient reduced-dimensional perovskite LEDs,"Nature, vol. 599, no. 7886, pp. 594-598, 2021.

[22]D. Wu^*#, W. Li^#, H. Liu^#, X. Xiao, K. Shi, H. Tang, C. Shan, K. Wang^*, X. W. Sun, and A. K. K. Kyaw^*, "Universal strategy for improving perovskite photodiode performance: interfacial built-in electric field manipulated by unintentional doping,"Advanced Science, vol. 8, no. 18, pp. 2101729, 2021.(封底文章)

[23]W. Feng^#, K. Lin^#, W. Li, X. Xiao, J. Lu, C. Yan, X. Liu, L. Xie, C. Tian,D. Wu^*, K. Wang^*, and Z. Wei^*, "Efficient all-inorganic perovskite light-emitting diodes enabled by manipulating the crystal orientation,"Journal of Materials Chemistry A, vol. 9, no. 17, pp. 11064-11072, 2021.

[24]Y. Tan, X. Xiao, S. Gui, J. Sun, T. Ye, J. Ma, Z. Wang, M. Qiu, X. W. Sun,D. Wu^*, and K. Wang^*, "Analyzing and modulating energy transfer in ternary-emissive system of quantum dot light-emitting diodes towards efficient emission,"Optics Express, vol. 29,no. 22, pp. 36964-36976,2021.

[25]Y. Tan^#, W. Zhang^#, X. Xiao^#, J. Sun, J. Ma, T. Zhang, G. Mei, Z. Wang, F. Zhao,D. Wu^*, W. C. H. Choy, X. W. Sun^*, and K. Wang^*, "Enhancing hole injection by electric dipoles for efficient blue InP QLEDs,"Applied Physics Letters, vol. 119,no. 22, pp. 221105,2021.

联系方式：

电子邮箱：wudan@sztu.edu.cn