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個(gè)人簡介

李攜曦博士，曾任加拿大麥吉爾大學(xué)博士后和香港大學(xué)研究助理教授，現(xiàn)任南方科技大學(xué)助理教授，入選深圳市“孔雀計(jì)劃”B類人才。研究方向集中于氮化鎵微納加工與光電集成器件相關(guān)領(lǐng)域，在國際學(xué)術(shù)期刊和國際會(huì)議論文集上累計(jì)發(fā)表學(xué)術(shù)論文120余篇，其中以第一作者或通訊作者發(fā)表SCI論文50余篇，包括Nature Nanotechnology、Optica、IEEE Transactions on Industrial Electronics、Progress in Quantum Electronics、IEEE Electron Device Letters等、封面文章6篇、被選為“Editors' Pick”文章4篇、并被半導(dǎo)體專業(yè)雜志Semiconductor Today及Compound Semiconductor專題報(bào)道3次。出版英文論著章節(jié)2部、英文專著1本。申請及授權(quán)美國及中國發(fā)明專利10余項(xiàng)。主持國自然面上項(xiàng)目、國自然青年基金項(xiàng)目、香港優(yōu)配研究金等。目前擔(dān)任Frontiers in Physics編委(Review Editor)。擔(dān)任2016年IEEE電子器件與固態(tài)電路國際會(huì)議當(dāng)?shù)亟M委會(huì)主席、2016-2019年IEEE電子器件與固體電路香港分部財(cái)務(wù)長（Treasurer）、Frontiers in Physics評審編輯（Review Editor）和Sensors的客座編輯（Guest Editor）。擔(dān)任Science Advances、Nano Energy、IEEE Transactions on Industrial Electronics、IEEE Electron Device Letters等20多個(gè)SCI期刊審稿人。

招聘信息

李攜曦博士課題組常年招聘博士后、科研助理，招收博士生、碩士生、本科實(shí)習(xí)生，有意應(yīng)聘者請將簡歷（格式PDF）發(fā)送至李攜曦郵箱，以“招聘崗位_應(yīng)聘者姓名”為題。課題組網(wǎng)站：http://khli-sustech.sxl.cn。

聯(lián)系方式：[email protected]

教育經(jīng)歷

2013年，香港大學(xué)，博士學(xué)位
2009年，香港大學(xué)，學(xué)士學(xué)位

工作經(jīng)歷

2019年至今，南方科技大學(xué)，助理教授
2016-2019年，香港大學(xué)，研究助理教授
2014-2016年，香港大學(xué)，博士后研究員
2013-2014年，麥吉爾大學(xué)，博士后研究員

研究簡介

主要從事氮化鎵器件的微納制造、集成光電器件的設(shè)計(jì)、制造與應(yīng)用等相關(guān)領(lǐng)域的研究。

所獲榮譽(yù)

2022年-IEEE OGC 2022 Best Paper Award

2022年-ACP 2022 Best Poster Award

2019年-深圳市孔雀計(jì)劃B類人才

2015年-國際施普林格優(yōu)秀博士論文獎(jiǎng)

2013年-香港大學(xué)優(yōu)秀研究生獎(jiǎng)

2011年-香港尤德爵士紀(jì)念基金研究生獎(jiǎng)學(xué)金

代表文章

1.K.H. Li, X. Liu, Q. Wang, S. Zhao, and Z. Mi* Ultralow-threshold electrically injected AlGaN nanowire ultraviolet lasers on Si operating at low temperature Nature Nanotechnology 10, 140–144 (2015). (Featured in Semiconductor Today)
2.K.H. Li, W.Y. Fu, Y. F. Cheung, K.K.Y. Wong, Y. Wang, K.M. Lau, and H.W. Choi* Monolithically integrated InGaN/GaN light-emitting diodes, photodetectors, and waveguides on Si substrate Optica 5(5), 564-569 (2018).
3.K.H. Li, W.Y. Fu, and H.W. Choi* Chip-scale GaN integration Progress in Quantum Electronics 70, 100247 (2020).
4.K.H. Li, Y.F. Cheung, W. Jin, W.Y. Fu, A.T.L. Lee, S.-C. Tan, S.Y.R. Hui, and H.W. Choi* InGaN RGB Light-emitting Diodes with Monolithically-Integrated Photodetectors for Stabilizing Color Chromaticity IEEE Transactions on Industrial Electronics 67(6), 5154-5160, (2020).
5.K.H. Li, H. Lu, W.Y. Fu, Y.F. Cheung, H.W. Choi* Intensity-Stabilized LEDs with Monolithically Integrated Photodetectors IEEE Transactions on Industrial Electronics 66(9), 7426 (2019).
6.K.H. Li, Y.F. Cheung, W.Y. Fu, K.K.Y. Wong, H.W. Choi* Monolithic Integration of GaN-on-Sapphire Light-Emitting Diodes, Photodetectors, and Waveguides IEEE Journal of Selected Topics in Quantum Electronics 24(6), 3801706 (2018).
7.Y. Luo, G. Lu, Q. Wang, Z. Chu, and K.H. Li*, Miniature viscometer incorporating GaN optical devices with an ultrawide measurement range Light: Advanced Manufacturing, 4(2) (2023)
8.Y. Luo, X. An, L. Chen, and K.H. Li* Chip-Scale Optical Airflow Sensor Microsystems & Nanoengineering 8, 4 (2022).
9.B. Yu, Y. Luo, L. Chen, Z. Chu, and K.H. Li* An optical humidity sensor: a compact photonic chip integrated with artificial opal Sensors and Actuators: B. Chemical 349, 130763 (2021).
10.X. An, H. Yang, Y. Luo, Z. Chu*, and K.H. Li* Ultrafast miniaturized GaN-based optoelectronic proximity sensor Photonics Research 10, 1964-1970 (2022).
11.Y. Hou#, J. Jing#, Y. Luo, Feng Xu, W. Xie, L. Ma, X. Xia, Q. Wei, Y. Lin*, K.H. Li*, and Z. Chu* A Versatile, Incubator-Compatible, Monolithic GaN Photonic Chipscope for Label-Free Monitoring of Live Cell Activities Advanced Science 9(17), 2200910 (2022).
12.J. Jing, Y. Hou, Y. Luo, L. Chen, L. Ma, Y. Lin, K.H. Li*, and Z. Chu* Chip-Scale In Situ Salinity Sensing Based on a Monolithic Optoelectronic Chip ACS Sensors 7, 849?855 (2022).
13.B. Yu, Y. Luo, J. Li, H. Ye, and K.H. Li* Interface Engineering in Chip-Scale GaN Optical Devices for Near- Hysteresis-Free Hydraulic Pressure Sensing ACS Applied Materials & Interfaces 14(33), 38351–38357 (2022).
14.L. Chen#, X.S. An#, J.X. Jing, H.T. Jin, Z.Q. Chu, and K.H. Li* Ultracompact Chip-Scale Refractometer Based on an InGaN-Based Monolithic Photonic Chip ACS Applied Materials & Interfaces 12(44), 49748-49754 (2020).
15.Y.F. Cheung#, K.H. Li#, and H.W. Choi* Flexible Free-Standing III-Nitride Thin Films for Emitters and Displays ACS Applied Materials & Interfaces 8(33), 21440–21445 (2016).
16.T. Zhang, M. Gupta, J. Jing, Z. Wang, Q. Wang*, K.H. Li*, and Z. Chu* High-Quality Diamond Microparticles Containing SiV Centers Grown by Chemical Vapor Deposition with Preselected Seeds Journal of Materials Chemistry C 10, 13734-13740 (2022). (Selected as the inside front cover)
17.J. Li#, J. Wu#, L. Chen, X. An, J. Yin, Y. Wu, L. Zhu. H. Yi, and K.H. Li* On-chip Integration of III-Nitride Flip-Chip Light-Emitting Diodes with Photodetectors Journal of Lightwave Technology 39(8), 2603-2608 (2021). (Featured in Semiconductor Today)
18.F. Geng#, B. Yu#, and K.H. Li*, Fast response PDMS/GaN Optical Vacuum Microsensors IEEE Electron Device Letters, 44(2), 310-304 (2023).
19.H. Yang#, Y. Luo#, G. Lu#, Y. Chai*, Z. Chu*, and K.H. Li*, Viscosity Sensors Based on III-Nitride Optical Devices Integrated With Droplet Sliding Channels IEEE Electron Device Letters, 43(12), 2169-2172 (2022). (Selected as the Editors' Pick)
20.J. Yin, H. Yang, Y. Luo, Q. Wang, H. Yu, and K.H. Li* III-Nitride Microsensors for 360 degrees Angle Detection IEEE Electron Device Letters 43, 458-461 (2022). (Selected as the Editors' Pick)
21.X. An#, Y. Luo#, B. Yu, L. Chen, and K.H. Li* A Chip-Scale GaN-Based Optical Pressure Sensor With Microdome-Patterned Polydimethylsiloxane (PDMS) IEEE Electron Device Letters 42(10), 1532-1535 (2021).
22.Y. Luo#, B. Yu#, L. Chen, and K.H. Li* Micro Humidity Sensor based on a GaN Chip with Silica Opal IEEE Electron Device Letters 42(5), 743-746 (2021). (Selected as the Editors' Pick and Front Cover)
23.K.H. Li, Y.F. Cheung, W.Y. Fu and H.W. Choi* Electrically injected whispering-gallery mode InGaN/GaN microdisks Applied Physics Letters 119, 101106 (2021).
24.K.H. Li, Y.F. Cheung, W.S. Cheung and H.W. Choi* Confocal microscopic analysis of optical crosstalk in GaN micro-pixel light-emitting diodes Applied Physics Letters 107, 171103 (2015).
25.Y.F. Cheung#, K.H. Li#, R.S.Y. Hui, and H.W. Choi* Observation of enhanced visible and infrared emissions in photonic crystal thin-film light-emitting diodes Applied Physics Letters 105, 071104 (2014).
26.K.H. Li, C. Feng, and H.W. Choi* Analysis of Micro-lens Integrated Flip-chip InGaN Light-emitting Diodes by Confocal Microscopy Applied Physics Letters 104, 051107 (2014).
27.K.H. Li, K.Y. Zang, S.J. Chua, and H.W. Choi* III-nitride Light-emitting Diode with Embedded Photonic Crystals Applied Physics Letters 102, 181117 (2013).
28.K.H. Li, Z.T. Ma and H.W. Choi* Tunable clover-shaped GaN photonic bandgap structures patterned by dual-step nanosphere lithography Applied Physics Letters 100, 141101 (2012).
29.K.H. Li, Z.T. Ma and H.W. Choi* High-Q whispering-gallery mode lasing from nanosphere-patterned GaN nanoring arrays Applied Physics Letters 98, 071106 (2011).
30.X. An, H. Yang, Y. Luo, Q. Wang, Z. Chu*, and K.H. Li* Compact GaN-based optical inclinometer Optics Letters 47, 1238-1241 (2022).
31.X.S. An, L. Chen, J. Li, and K.H. Li* Compact integration of GaN-based photonic chip with microfluidics system Optics Letters 46(12), 170-173 (2021).
32.H. Jin, L. Chen, J. Li, X. An, Y.P. Wu, L. Zhu, H. Yi, and K.H. Li* Vertically-Stacked RGB LEDs with Optimized Distributed Bragg Reflectors Optics Letters 45(24), 6671-6674 (2020). (Selected as Cover Story)
33.L. Chen, Y.P. Wu, and K.H. Li* Monolithic InGaN/GaN photonic chips for heart pulse monitoring Optics Letters 45(18), 4992 (2020).
34.K.H. Li, Y.F. Cheung, and H.W. Choi* Whispering gallery mode lasing in optically isolated III-nitride nanorings Optics Letters 40, 2564-2567 (2015).
35.K.H. Li, Z.T. Ma and H.W. Choi* Single-mode whispering gallery lasing from metal-clad GaN nanopillars Optics Letters 37, 374 (2012).
36.J. Chen, J. Yin, X. An, L. Chen, L. Zhu, and K.H. Li* III-Nitride Microchips for Sugar Concentration Detection IEEE Sensors Journal 22(3), 2078-2082 (2022).
37.J. Chen, L. Chen, L. Zhu, X. Zhang, and K.H. Li* Simultaneous Curing and Monitoring of Resin Using GaN Chips IEEE Sensors Letters 6(4), 3500804 (2022).
38.H. Yang, X. An, Y. Luo, L. Chen, and K.H. Li* Investigation of the Angle-Detecting Mechanism of GaN-Based Optical Devices Incorporating Liquid Pendulums IEEE Sensors Letters 6(8), 3501904 (2022).
39.J. Yin, X. An, L. Chen, Q. Wang, H. Yu, H. Huang, and K.H. Li* A Miniature GaN Chip for Surface Roughness Measurement IEEE Transactions on Electron Devices 68, 4977-4981, (2021).
40.J.H. Yin, X.S. An, L. Chen, J. Li, J.N. Wu, Y.M. Luo, Q. Wang, H.Y. Yu, and K.H. Li* Phosphor-based InGaN/GaN White Light-Emitting Diodes with Monolithically Integrated Photodetectors IEEE Transactions on Electron Devices 68(1), 132-137 (2021).
41.H. Jin, L. Chen, J. Wu, Y. Wu, L. Zhu*, and K.H. Li* High-Performance III-Nitride Light-Emitting Diode Stripes IEEE Transactions on Electron Devices 68, 5629-5633 (2021).
42.K.H. Li, Y.F. Cheung, H.W. Choi* Tunable GaN Photonic Crystal and Microdisk on PDMS Flexible Films ACS Applied Electronic Materials 1(7),1112-1119 (2019).
43.X.S. An, L. Chen, J. Li, Q. Wang, and K.H. Li* Compact GaN-Based Photonic Chip for In Situ Real-Time Monitoring of Low Water Content in Ethanol ACS Applied Electronic Materials 2(11), 3502-3507 (2020).
44.J. Jing#, X. An#, Y. Luo, L. Chen, Z.Q. Chu*, and K.H. Li* A Compact Optical Pressure Sensor Based on a III-Nitride Photonic Chip with Nanosphere-Embedded PDMS ACS Applied Electronic Materials 3(5), 1982-1987 (2021).
45.K.H. Li, Y.F. Cheung, and H.W. Choi* Optical and Thermal Analyses of Thin-film Hexagonal Micro-mesh Light-emitting Diodes IEEE Photonics Technology Letters 25, 374 (2013).
46.J. Yin, L. Chen, Y. Luo, Q. Wang, H. Yu, and K.H. Li* Performance of InGaN green light-emitting diodes with on-chip photodetectors based on wire-bonding and flip-chip configurations Applied Optics 60(9), 2599-2603 (2021). (Selected as the Editors' Pick and Front Cover)
47.K.H. Li and H.W. Choi* Air-spaced GaN nanopillar photonic band gap structures patterned by nanosphere lithography Journal of Applied Physics 109, 023107 (2010).
48.K.H. Li, and H.W. Choi* InGaN light-emitting diodes with indium-tin-oxide photonic crystal current-spreading layer Journal of Applied Physics 110, 053104 (2011).
49.K.H. Li, Y.F. Cheung, C.W. Tang, C. Zhao, K.M. Lau and H.W. Choi* Optical crosstalk analysis of micro-pixelated GaN-based light-emitting diodes on sapphire and Si substrates Physica Status Solidi A 213(5), 1193-1198 (2016).
50.K.H. Li, Q. Wang, H.P.T. Nguyen, S. Zhao, and Z. Mi* Polarization-resolved electroluminescence study of InGaN/GaN dot-in-a-wire light-emitting diodes grown by molecular beam epitaxy Physica Status Solidi A 201431726, (2015).
51.K.H. Li, Q. Zhang, and H.W. Choi* 1-mu m Micro-Lens Array on Flip-Chip Light-Emitting Diode Japanese Journal of Applied Physics 52, 08JH08, (2013).
52.K.H. Li, K.Y. Zang, S.J. Chua, and H.W. Choi* Embedding nano-pillar arrays into InGaN light-emitting diodes Physica Status Solidi (c) 11, 742 (2014). (Selected as the Front Cover)
53.K.H. Li, and H.W. Choi* Tuning of photonic bandgap via dimensional control of nano-pillars Physica Status Solidi (c) 8, 2351 (2011).