个人简介
朱强,男,博士,副研究员,硕士生导师。
主要研究方向:薄膜晶体管与半导体器件物理;中红外波段量子点材料的合成及其电子器件;半导体材料在光探测器、气敏传感器、超级电容器、光催化中的应用;半导体材料的光、电特性与结构弛豫机制的动力学研究;纳米材料与半导体器件的能带工程与表面工程;半导体器件微纳制造工艺。
教育和工作经历
2018年10月-今 星空在线手机版(大中国区),副研究员。
2016年10月-2018年10月 香港中文大学,电子工程学系,博士后。
2011年09月-2016年06月 华中科技大学,材料学专业,获工学博士。
2007年09月-2011年06月 四川大学,材料成型与控制工程专业,获工学学士。
科研项目
1.高偏压稳定性薄膜晶体管的构建与传感器应用:以电极/半导体薄膜界面势垒调控为导向(主持,国家自然科学基金-地区基金项目,No. 62164012,在研)
2.时间分辨光电导谱定量化研究金属氧化物的光生载流子动力学(主持,国家自然科学基金-青年基金项目,No. 61904159,已结题)
3.胶体量子点红外光电探测器(主持,云南省基础研究专项-面上项目,No. 202101AT070025,已结题)
4.云南省高层次人才引进计划-培养经费支持(主持,在研)
5.Understanding the Electronic Processes in Bulk and Nano structured Red Phosphorus(General Research Fund, No. 439013, HongKong)
6.Development of a Handheld High-resolution Short-waveInfrared Spectrometer (Innovationand Technology Fund, No. ITS/402/17, HongKong)
研究成果
1.Zheng Liang; Xiaoliang Li; Pengyan Luan; Zhenxin Yang; Jiale Su; Xuanhe Li; Fushun Li; Dongming Zhang; Jinquan Huang; Haikun Zhu; Dengke Wang; Zheng-Hong Lu; Qiang Zhu*. ACS Applied Electronic Materials, 2024, 6(5), 3409-3421.
2.Pengyan Luan; Zhenxin Yang; Zheng Liang; Xiaoliang Li; Nan Chen; Fushun Li; Xuanhe Li; Jiale Su; Zheng-Hong Lu; Qiang Zhu*. Hysteresis erasure in ZIF-8@ZnO nanorod array field-effect transistors through oxygen chemisorption-induced depolarization. APL Materials, 2024, 12, 011117.
3.Xiaoliang Li; Zhenxin Yang; Zheng Liang; Pengyan Luan; Nan Chen; Xuanhe Li; Jiale Su; Fushun Li; Dongming Zhang; Deng-Ke Wang; Zheng-Hong Lu; Qiang Zhu*. Optimizing Thin Films and Device Structures for the Design of PbS Colloidal Quantum Dots Near-Infrared Photodetectors. ACS Applied Electronic Materials, 2024, 69(6), 4257-4268.
4.Lingping Qin; Wei Liu; Jiale Su; Zhenxin Yang; Zheng Liang; Xiaoliang Li; Pengyan Luan; Deng-Ke Wang; Zheng-Hong Lu; Qiang Zhu*. Influence of volatile organic compound adsorption on the characteristics of organic field-effect transistors and rules for gas-sensing measurements. Langmuir, 2023, 39(44), 15756-15765.
5.Zhenxin Yang; Chunhua Guo; Lingping Qin; Jun-Tao Hu; Pengyan Luan; Zheng Liang; Xiaoliang Li; Huaiyi Ding; Deng-Ke Wang; Tao Zhang; Qiang Zhu*; Zheng-Hong Lu*. Enhanced organic thin-film transistor stability by preventing MoO3 diffusion with metal/MoO3/organic multilayered interface source-drain contact. ACS Applied Materials & Interfaces, 2022, 15(1), 1704-1717.
6.Chunhua Guo; Zhenxin Yang; Lingping Qin; Jiaxiu Man; Tao Zhang; Deng-Ke Wang; Zheng-Hong Lu; Qiang Zhu*. Improving bias-stress stability of p-type organic field-effect transistors by suppressing electron injection. Journal of Materials Science: Materials in Electronics, 2022, 33(7), 3726-3737.
7.Keng Xu*; Chenyong Zhan; Wei Zhao; Xing Yu; Qiang Zhu*; Li Yang. Tunable resistance of MOFs films via an anion exchange strategy for advanced gas sensing. Journal of Hazardous Materials, 2021, 416, 125906.
8.Zhenxin Yang; Chunhua Guo; Changsheng Shi; Deng-Ke Wang; Tao Zhang; Qiang Zhu*; Zheng-Hong Lu*. Improving Bias-Stress Stability of p-Type Organic Field-Effect Transistors by Constructing an Electron Injection Barrier at the Drain Electrode/Semiconductor Interfaces. ACS Applied Materials & Interfaces, 2020, 12(37), 41886-41895.
9.Guodong Zhou1; ShuangZhou1; Qiang Zhu1; Ni Zhao*. Improving OperationalStability of p‐Type Field‐Effect Transistors by Charge Selective Electrodes: aGeneral Strategy. Advanced Electronic Materials, 2019, 1900055.
10.KengXu*, Shuailing Duan, Qian Tang, Qiang Zhu*, Wei Zhao, Xing Yu, YongYang, Ting Yu, Cailei Yuan*, P–N Heterointerface-Determined Acetone Sensing Characteristicsof α-MoO3@ NiO Core@Shell Nanobelts. CrystEngComm, 2019, 21(38), 5834-5844.
