師資
個(gè)人簡(jiǎn)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,。研究方向集中寬禁帶半導(dǎo)體器件與集成相關(guān)領(lǐng)域,在國(guó)際學(xué)術(shù)期刊和國(guó)際會(huì)議論文集上累計(jì)發(fā)表學(xué)術(shù)論文160余篇,,其中以第一作者或通訊作者發(fā)表SCI論文70余篇,,包括Nature、Nature Nanotechnology,、IEEE Electron Device Letters等,。
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(qǐng)將簡(jiǎn)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(jiǎn)介
寬禁帶半導(dǎo)體器件與集成
課題組網(wǎng)站:http://khli-sustech.sxl.cn
所獲榮譽(yù)
2024年-第49屆日內(nèi)瓦國(guó)際發(fā)明展金獎(jiǎng)
2024年-2024年度半導(dǎo)體十大研究進(jìn)展提名獎(jiǎng)
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(guó)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) J. Jing#, F. Sun#, Z. Wang, L. Ma, Y. Luo, Z. Du, T. Zhang, Y. Wang, F. Xu, X. Ma, X. Wang, Y. Zhou, J.K.H. Tsoi, J. Wrachtrup, N. Wong, C. Li, D.-K. Ki, Q. Wang*, K.H. Li*, Y. Lin*, and Z. Chu*
Scalable production of ultraflat and ultraflexible diamond membrane
Nature 636, 627-634 (2024).
(2) J. Jing, Y. Luo, Y. Wang, Z. Wang, Q. Wang*, K.H. Li*, and Zhiqin Chu*
Strain-enhanced responsivity of scalable and flexible diamond UV detector
IEEE Electron Device Letters, accepted (2025).
(3) T. Ye#, J. Chen#, X. Tang, and K.H. Li*
Biomimetic Hair-Assisted GaN Optical Devices for Bidirectional Airflow Detection
Microsystems & Nanoengineering 10(1), 166 (2024).
(4) S. Gui, B. Yu, Y. Luo, L. Chen, and K.H. Li*
Rapid-Response, Low-Detection-Limit, Positive-Negative Air Pressure Sensing: GaN Chips Integrated with Hydrophobic PDMS Films
Microsystems & Nanoengineering 10(1), 162 (2024). (selected as the Feature Article)
(5) T. Chen#, R. Huang#, L. Zhu*, and K.H. Li*
III-Nitride Optochip-in-Sphere for Dual-Axis Angle Detection
IEEE Electron Device Letters 45(8), 1516-1519 (2024). (Selected as the Editors' Pick)
(6) J. Yin, Y. Luo, L. Chen, Q. Wang, H. Yu, and K.H. Li*
High-Resolution Optical Three-Axis Tactile Microsensor Based on III-Nitride Devices with Integrated PDMS Bumps
IEEE Electron Device Letters 44(12), 2035-2038 (2023).
(7) J. Yin, B. Yu, Y. Luo, Q. Wang, H. Yu, and K.H. Li*
Optomechanical Switches and Logic Gate Functions Based on GaN-on-Sapphire Devices Integrated With PDMS Membranes
IEEE Electron Device Letters 44(7), 1192-1195 (2023).
(8) F. Geng#, B. Yu#, and K.H. Li*
Fast response PDMS/GaN Optical Vacuum Microsensors
IEEE Electron Device Letters 44(2), 310-304 (2023).
(9) 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).
(10) J. Yin, H. Yang, Y. Luo, Q. Wang, H. Yu, and K.H. Li*
III-Nitride Microsensors for 360° Angle Detection
IEEE Electron Device Letters 43(3), 458-461 (2022). (Selected as the Editors' Pick).
(11) Y. Luo, X. An, L. Chen, and K.H. Li*
Chip-Scale Optical Airflow Sensor
Microsystems & Nanoengineering 8(1), 4 (2022).
(12) 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).
(13) 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).
(14) 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).
(15) 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(2), 140-144 (2015). (Featured in Semiconductor Today)