吴丹 副教授
个人介绍:
研究方向包括硅基片上光源、片上光电器件、微纳结构光场调控、逆向纳米光子学智能算法。具体包括纳米盘/线/柱、亚波长光栅等逆向纳米光子学设计。具体包括纳米盘/线/柱、亚波长光栅等微纳结构光学逆向设计,及其在光电探测器、太阳能电池、发光二极管、硅基片上光源中的应用。作为PI主持国家自然科学(青年)基金、广东省教育厅特色创新项目、广东省自然科学基金面上项目、深圳市基础研究面上项目;作为课题负责人,承担国家重点研发计划重点专项等。在国际学术期刊发表SCI论文61篇(封面/封底文章4篇, 包括Nature, Advanced Science, Advanced Functional Materials, Applied Physics Letters, Optics Express等),EI收录国际会议论文11篇(杰出论文1篇)。共同出版英文专著《Freeform Optics for LED Packages and Applications》,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图书奖一等奖、2018年深圳市孔雀计划C类人才、2016年国际信息显示学会杰出论文奖(获奖率3.7%)、2012年亚洲创新论坛青年创业奖(获奖率2.5%,全亚洲6人)等奖项。现为Light: Science & Applications、Optics Express、《中国激光》、《光学学报》等知名学术期刊审稿人。
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 云顶3118网站,3118云顶集团,副教授
2020.12-2022.11 云顶3118网站,3118云顶集团,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,副研究员
主要荣誉:
1. 中国石油和化学工业优秀出版物图书奖一等奖,2021
2. 深圳市孔雀计划C类人才, 2018
3. 深圳市南山区领航人才, 2018
4. 亚洲创新论坛青年创业奖, 获奖率2.5%, 全亚洲6人, 唯一女性获奖人(Asia Innovation Forum Committee, Tokyo, Japan, 2012)
5. 国际信息显示学会杰出论文奖,(获奖率3.7%), Society for Information Display (SID), 2016
6. 新加坡南洋理工大学博士生全额奖学金, 2013 - 2018
研究方向:
1. 硅基片上光源
2. 集成光电器件、集成光子芯片
3. 量子点显示
4. 逆向纳米光子学设计、微纳结构光场调控
5. 可见光通信中的片上高速调制光源
科研项目:
主持与参与的项目
[1] 主持, 国家自然科学青年基金, 项目批准号 61905107, 2020.01~2022.12, 23万元
[2] 主持, 广东省教育厅特色创新项目, 项目批准号 2019KTSCX157, 2020.06~2022.06, 8万元
[3] 主持,广东省自然科学基金面上项目,项目批准号 2214050003201, 2022.01~2024.12,10 万元
[4] 主持, 深圳市基础研究面上项目,项目批准号 JCYJ20190809152411655, 2020.02~2022.02, 30万元
[5] 课题负责人, 2019年度国家重点研发计划——“网络协同制造和智能工厂”重点专项, 项目批准号 2019YFB1704600, 2019.12~2022.11, 27.44 万元
代表论文:
A. 期刊论文
[1] X. Tang#, Z. Wang#, D. Wu*, Z. Wu, Z. Ren, R. Li, P. Liu, G. Mei, J. Sun, J. Yu, F. Zheng, W. Choy, R. Chen, X. 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, 2104788, 2022.
[2] 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, 2022.
[3] 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, 2021.
[4] 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, 2021.
[5] 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, 2021. (封底文章)
[6] 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, 2021.
[7] 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, 2021.
[8] X. Tang, W. Chen, D. Wu*, A. Gao, G. Li, J. Sun, K. Yi, Z. Wang, G. Pang, H. Yang, R. Guo, H. Liu, H. Zhong, M. Huang, R. Chen, P. Müller-Buschbaum, X. W. Sun, and K. Wang*, "In situ growth of all-inorganic perovskite single crystal arrays on electron transport layer," Advanced Science, vol. 7, 2020.
[9] J. Lu, W. Feng, G. Mei, J. Sun, C. Yan, D. Zhang, K. Lin, D. Wu*, K. Wang*, and Z. Wei*, "Ultrathin PEDOT:PSS enables colorful and efficient perovskite light-emitting diodes," Advanced Science, vol. 7, 2020.
[10] S. Li#, H. Liu#, W. Chen#, Z. Zhou, D. Wu*, R. Lu, B. Zhao, J. Hao, L. Yang, H. Yang, R. Cai, B. Xu, K. Wang*, and X. W. Sun, "Low reabsorption and stability enhanced luminescent solar concentrators based on silica encapsulated quantum rods," Solar Energy Materials and Solar Cells, vol. 206, 2020.
[11] Z. Zhao, X. Wang*, K. Yang, F. Fang, D. Wu*, S. Liu, and K. Wang*, "Analysis of factors affecting optical performance of GaN-based micro-LEDs with quantum dots films," Crystals, vol. 10, 2020.
[12] Q. Xie#, D. Wu#*(共同第一作者), X. Wang*, Y. Li, F. Fang, Z. Wang, Y. Ma, M. Su, S. Peng, H. Liu, K. Wang*, and X. W. Sun, "Branched capping ligands improve the stability of cesium lead halide (CsPbBr3) perovskite quantum dots," Journal of Materials Chemistry C, vol. 7, 2019.
[13] H. Tang#, J. Zhong#, W. Chen#, K. Shi, G. Mei, Y. Zhang, Z. Wen, P. Müller-Buschbaum, D. Wu*, K. Wang*, and X. W. Sun*, "Lead sulfide quantum dot photodetector with enhanced responsivity through a two-step ligand-exchange method," ACS Applied Nano Materials, vol. 2, 2019.
[14] X. Xiao, H. Xiao, D. Wu*, R. Wang*, K. Wang*, and K. S. Chiang, "Effects of injection current on the modulation bandwidths of quantum-dot light-emitting diodes," IEEE Transactions on Electron Devices, vol. 66, 2019.
[15] D. Wu, X. Tang*, K. Wang*, A. Olivier, and X. Li, "Parameters study on the growth of GaAs nanowires on indium tin oxide by metal-organic chemical vapor deposition," Journal of Applied Physics, vol. 119, 2016.
[16] D. Wu, X. Tang*, K. Wang*, and X. Li, "Effective coupled optoelectrical design method for fully infiltrated semiconductor nanowires based hybrid solar cells," Optics Express, vol. 24, 2016.
[17] D. Wu, X. Tang*, K. Wang*, Z. He, and X. Li, "An efficient and effective design of InP nanowires for maximal solar energy harvesting," Nanoscale Research Letters, vol. 12, 2017.
[18] D. Wu, X. H. Tang*, H. S. Yoon, K. Wang*, A. Olivier, and X. Q. Li, "MOCVD growth of high-quality and density-tunable GaAs nanowires on ITO catalyzed by Au nanoparticles deposited by centrifugation," Nanoscale Research Letters, vol. 10, 2015.
[19] D. Wu, X. Tang*, and X. Li, "Optimization of the nanowire size and distribution of compound semiconductor nanowire-based hybrid solar cells," IEEE Journal of Photovoltaics, vol. 5, 2015.
[20] D. Wu, X. H. Tang*, A. Olivier, and X. Q. Li, "Free-standing GaAs nanowires growth on ITO glass by MOCVD," Materials Research Express, vol. 2, 2015.
[21] D. Wu, X. Tang*, and H. Yoon, "Deposition of high-density Au nanoparticles on ITO glass by centrifugation," Journal of Nanoparticle Research, vol. 17, 2015.
[22] D. Wu, X. Tang*, K. Wang*, and X. Li, "An analytic approach for optimal geometrical design of GaAs nanowires for maximal light harvesting in photovoltaic cells," Scientific Reports, vol. 7, 2017.
[23] D. Wu, K. Wang*, and V. G. Chigrinov, "Feedback reversing design method for uniform illumination in LED backlighting with extended source," Journal of Display Technology, vol. 10, 2014.
[24] H. Yang, Y. Liu, J. Hao, H. Tang, S. Ding, Z. Wang, F. Fang, D. Wu, W. Zhang, H. Liu, B. Xu, R. Lu, L. Yang, P. Liu, K. Wang, and X. W. Sun, "Alloyed green-emitting CdZnSeS/ZnS quantum dots with dense protective layers for stable lighting and display applications," ACS Applied Materials & Interfaces, vol. 13, 2021.
[25] W. Zhang, S. Ding, W. Zhuang*, D. Wu, P. Liu, X. Qu, H. Liu, H. Yang, Z. Wu, K. Wang*, and X. W. Sun*, "InP/ZnS/ZnS core/shell pure blue quantum dots for light-emitting diodes," Advanced Functional Materials, vol. 30, 2020.
[26] F. Fang, M. Liu, W. Chen, H. Yang, Y. Liu, X. Li, J. Hao, B. Xu, D. Wu, K. Cao, W. Lei, P. Müller-Buschbaum, X. W. Sun, R. Chen*, and K. Wang*, "Atomic Layer Deposition Assisted Encapsulation of Quantum Dot Luminescent Microspheres toward Display Applications," Advanced Optical Materials, vol. 8, 2020.
[27] A. Gao, J. Yan, Z. Wang, P. Liu, D. Wu, X. Tang, F. Fang, S. Ding, X. Li, J. Sun, M. Cao, L. Wang, L. Li*, K. Wang*, and X. W. Sun*, "Printable CsPbBr3 perovskite quantum dot ink for coffee ring-free fluorescent microarrays using inkjet printing," Nanoscale, vol. 12, 2020.
[28] Z. Wang#, X. Xiao#, J. Shen, P. Liu, D. Wu, X. Tang, G. Mei, J. Sun, H. Yang, X. Li, Z. Wu, Q. Xie, F. Fang, S. Ding, W. C. H. Choy, X. W. Sun, and K. Wang*, "Enhancing stability of CsPbBr3 nanocrystals light-emitting diodes through polymethylmethacrylate physical adsorption," nano select, vol. 1, 2020.
[29] X. Xiao, K. Wang*, T. Ye, R. Cai, Z. Ren, D. Wu, X. Qu, J. Sun, S. Ding, X. W. Sun, and W. C. H. Choy*, "Enhanced hole injection assisted by electric dipoles for efficient perovskite light-emitting diodes," Communications Materials, vol. 1, 2020.
[30] H. Yang, M. Zhou, H. Tang, M. Sun, P. Liu, Y. Liu, L. Chen, D. Li, D. Wu, J. Hao, B. Xu, Z. Zhao, Z. Ren, S. Jia, K. Wang*, and X. W. Sun*, "Enhanced light emission of quantum dot films by scattering of poly(zinc methacrylate) coating CdZnSeS/ZnS quantum dots and high refractive index BaTiO3 nanoparticles," RSC Advances, vol. 10, 2020.
[31] G. Mei, D. Wu, S. Ding, W. C. H. Choy, K. Wang, and X. W. Sun*, "Optical tunneling to improve light extraction in quantum dot and perovskite light-emitting diodes," IEEE Photonics Journal, vol. 12, 2020.
[32] M. Mei#, Z. Han#, P. Liu, F. Fang, W. Chen, J. Hao, D. Wu, R. Pan*, W. Cao, and K. Wang*, "Silica encapsulation of metal perovskite nanocrystals in a photoluminescence type display application," Nanotechnology, vol. 30, 2019.
[33] X. Li#, W. Li#, Y. Yang, X. Lai, Q. Su, D. Wu, G. Li*, K. Wang, S. Chen, X. W. Sun, and A. K. K. Kyaw*, "Defects passivation with dithienobenzodithiophene-based π-conjugated polymer for enhanced performance of perovskite solar cells," Solar RRL, vol. 3, 2019.
[34] H. Liu, H. Zhong, F. Zheng, Y. Xie, D. Li, D. Wu, Z. Zhou, X. W. Sun, and K. Wang*, "Near-infrared lead chalcogenide quantum dots: synthesis and applications in light emitting diodes," Chinese Physics B, vol. 28, 2019.
[35] M. Su, D. Wu, B. Fan, F. Wang, K. Wang*, and Z. Luo*, "Synthesis of highly efficient and stable CH3NH3PbBr3 perovskite nanocrystals within mesoporous silica through excess CH3NH3Br method," Dyes and Pigments, vol. 155, 2018.
[36] W. Zhang, W. Zhuang*, X. Xing*, B. Xu, D. Wu, H. Liu, K. Wang*, R. Liu, and X. W. Sun, "Alloyed multi-shell quantum dots with tunable dual emission," Journal of Materials Chemistry C, vol. 6, 2018. (封底文章)
[37] H. Liu#, S. Li#, W. Chen, D. Wang, C. Li, D. Wu, J. Hao, Z. Zhou, X. Wang, and K. Wang*, "Scattering enhanced quantum dots based luminescent solar concentrators by silica microparticles," Solar Energy Materials and Solar Cells, vol. 179, 2018.
[38] X. Li, X. Tang, Y. Yang, T. Ye, D. Wu, H. Wang, J. Li, and X. Wang, "A dopant-free polymer as hole-transporting material for highly efficient and stable perovskite solar cells," Progress in Photovoltaics, vol. 26, 2018
[39] B. Xu#, W. Wang#, X. Zhang, W. Cao, D. Wu, S. Liu, H. Dai, S. Chen*, K. Wang*, and X. W. Sun*, "Bright and efficient light-emitting diodes based on MA/Cs double cation perovskite nanocrystals," Journal of Materials Chemistry C, vol. 5, 2017. (封面文章)
B. 会议论文
[1] Z. Fan, W. Chen, F. Qiu, C. Fang, B. Xiang, D. Wu*, M. Qiu*, K. Wang, and Z. Zhao, "Numerical study on the light extraction efficiency and angular energy distribution of Micro-LEDs," 2021 IEEE 6th Optoelectronics Global Conference (OGC), 2021.
[2] Y. Wu, H. Xie, Y. Zhang, J. Li, K. Wang, Z. Zhao, M. Qiu*, F. Yang, and D. Wu*, "Analysis of package factors affecting the light output efficiency of quantum dots-based micro-LEDs," 2021 IEEE 6th Optoelectronics Global Conference (OGC), 2021.
[3] J. Qin, Z. L. Wen, S. Li, J. Hao, W. Chen, D. Dong, J. Deng, D. Wang, B. Xu, D. Wu, K. Wang* and X. W. Sun *, "Large-scale luminance enhancement film with quantum rods aligned in polymeric nanofibers for high efficiency wide color gamut led display", SID Display Week 2016, San Francisco, CA, USA, 2016. (Featured as the 2016 SID Distinguished Paper Award, 2016年国际信息显示学会杰出论文奖, 获奖率为3.7%)
专著章节:
[1] Kai Wang, Sheng Liu, Xiaobing Luo and Dan Wu, Freeform Optics for LED Packages and Applications, John Wiley and Sons, ISBN: 978-1-118-74971-5, 2017.07. (本书为国际上第一本关于LED自由曲面光学技术的专著,得到了美国国家工程院院士汪正平教授的推荐,成功入选“十三五”国家重点图书)
联系方式:
电子邮箱:wudan@sztu.edu.cn
