学习经历:
2009/09–2013/06,吉林大学,化学专业(国家基地班),理学学士
2013/09–2018/06,吉林大学,高分子化学与物理专业,理学博士(导师:张俊虎 教授)
工作经历:
2018/09–2022/02,九游网站入口官网,化学化工学院&能源材料化学协同创新中心,博士后(合作导师:侯旭 教授)
2022/03–今,九游网站入口官网,九游网站入口官网,电子科学系,助理教授
研究方向:
Micro-LED显示技术、量子点、图案化、微流控、仿生材料与器件
个人主页:https://ssl.xmu.edu.cn/2022/0418/c14728a452715/page.htm
主讲课程:
[1] 物理电子学实验(本科生课)
[2] 半导体照明与光电检测实验(本科生课)
[3] 近代物理实验(本科生课)
[4] 现代电子技术前沿(本科生课)
学术兼职:
[1] Engineering Reports副主编
[2] Exploration学术编辑
[3] Chinese Chemical Letters、Nano Materials Science、Engineering Reports青年编委和Micromachines客座编辑;
[4] 电气电子工程师学会会员、中国光学工程学会会员、中国材料研究学会会员、国际仿生工程学会会员、中国化学会会员
[5] Chemical Engineering Journals、Chinese Chemical Letters、Nano Materials Science、Next Nanotechnology、Next Sustainability、Engineering Reports等20余个期刊的审稿人
成果奖励:
[1] 中国材料研究学会学术贡献奖(2024)
[2] 九游网站入口官网第十八届教学比赛二等奖(2023)
[3] Exploration杰出编委奖(2023)
[4] 第六届国际仿生工程学术大会优秀墙报奖(2019年)
[5] 吉林大学研究生优秀奖学金(2014-2016年)
[6] 吉林大学优秀研究生(2015年)
[7] 内蒙古自治区三好学生(2009年)
指导学生竞赛获奖:
[1] “兆易创新杯”第十八届中国研究生电子设计竞赛技术类竞赛全国总决赛一等奖,优秀指导老师(2023年,第二指导教师)
[2] “兆易创新杯”第十七届中国研究生电子设计竞赛商业计划书专项赛全国总决赛二等奖(2022年,第二指导教师)
课题项目:
[1] 基于微流控技术和图案化技术的色转换Micro-LED全彩显示器件设计,中央高校基本科研业务费专项资金,2022.01-2024.12,主持
[2] 仿生温度响应性微通道在微流控抗污染和可控药物释放方面的应用,国家自然科学基金青年科学基金项目,2021.01-2021.12,主持
代表作:
[1] Yihang Chen, Xiao Yang, Xiaotong Fan, Ao Kang, Xuemin Kong, Guolong Chen, Chenming Zhong, Yijun Lu, Yi Fan, Xu Hou, Tingzhu Wu, Zhong Chen, Shuli Wang*, Yue Lin*, Electrohydrodynamic Inkjet Printing of Three-Dimensional Perovskite Nanocrystals Arrays for Full-Color Micro-LED Displays, ACS Applied Materials & Interfaces, 2024, Accepted. (IF=9.5)
[2] Xuemin Kong, Xiaotong Fan, Yuhui Wang, Yunshu Luo, Yihang Chen, Tingzhu Wu, Zhong Chen, Yue Lin*, Shuli Wang*, Recent Advances of Photolithography Patterning of Quantum Dots for Micro-display Applications, Nano Materials Science, 2024, DOI: 10.1016/j.nanoms.2024.03.005. (IF=9.9)
[3] Xiao Yang#, Shuli Wang#, Yaqi Hou, Yuhui Wang, Tianqi Zhang, Yihang Chen, Guolong Chen, Chenming Zhong, Xiaotong Fan, Xuemin Kong, Tingzhu Wu, Yijun Lu, Yue Lin*, Zhong Chen*, Dual-ligand red perovskite ink for Electrohydrodynamic printing color conversion arrays over 2540 dpi in near-eye micro-LED display, Nano Letters, 2024, 24, 3661-3669. (IF=10.8)
[4] Xiaotong Fan, Xiao Yang, Xuemin Kong, Tianqi Zhang, Shuli Wang*, Yue Lin*, Zhong Chen*, Recent Progresses on Perovskite Quantum Dots Patterning Techniques for Color Conversion Layer in Micro-LED Display, Next Nanotechnology, 2024, 5, 100045.
[5] Feng Wu, Xuemin Kong, Yixuan Liu, Shuli Wang*, Zhong Chen*, Xu Hou, Microfluidic-based isolation of circulating tumor cells with high-efficiency and high-purity, Chinese Chemical Letters, 2024, DOI: 10.1016/j.cclet.2024.109754. (IF=9.1)
[6] Feng Wu, Xiaofeng Chen, Shuli Wang*, Ruimin Zhou, Chunyan Wang, Lejian Yu, Jing Zheng, Chaoyong Yang*, Xu Hou*, Green Synthesized Liquid-like Dynamic Polymer Chains with Decreased Non-specific Adhesivity for High-purity Capture of Circulating Tumor Cells, CCS Chemistry, 2024, 6, 507-517. (IF=11.2)
[7] Xiaotong Fan#, Shuli Wang#, Xiao Yang, Chenming Zhong, Guolong Chen, Changzhi Yu, Yihang Chen, Tingzhu Wu, Hao-Chung Kuo, Yue Lin*, Zhong Chen*, Brightened bicomponent perovskite nano-composite based on Förster resonance energy transfer for micro-LED displays, Advanced Materials, 2023, 35, 2300834. (IF=29.4)
[8] Xiao Yang, Zijun Yan, Chenming Zhong, Hui Jia, Guolong Chen, Xiaotong Fan, Shuli Wang, Tingzhu Wu, Yue Lin*, Zhong Chen*, Electrohydrodynamically Printed High-resolution Arrays Based on Stabilized CsPbBr3 Quantum Dot Inks, Advanced Optical Materials, 2023, 2202673. (IF=9)
[9] Kang-Wei Peng, Shouqiang Lai, Meng-Chun Shen, Saijun Li, Lijie Zheng, Yurong Dai, Jinlan Chen, Lihong Zhu, Guolong Chen, Shuli Wang, Yijun Lu, Hao-Chung Kuo, Zhong Chen*, Ting-Zhu Wu*, AlGaN-Based Deep-Ultraviolet Light-Emitting Diodes with varied thickness of Sidewall Passivation via Atomic-Layer-Deposition, IEEE Transactions on Electron Devices, 2023, 70, 5727. (IF=3.1)
[10] Yunmao Zhang, Yuhang Han, Xiaoliang Ji, Duyang Zang, Long Qiao, Zhizhi Sheng, Chunyan Wang, Shuli Wang, Miao Wang, Yaqi Hou, Xinyu Chen, Xu Hou, Continuous Air Purification by Aqueous Interface Filtration and Absorption, Nature, 2022, 610, 74-80. (IF=64.8)
[11] Shuli Wang*, Ruimin Zhou, Yaqi Hou, Miao Wang, Xu Hou, Photochemical effect driven fluid behavior control in microscale pores and channels, Chinese Chemical Letters, 2022, 33, 3650–3656 (IF=9.1)
[12] Shuli Wang, Yunmao Zhang, Yuhang Han, Yaqi Hou, Yi Fan, Xu Hou*, Design of Functional Membranes by Liquid Gating Technology, Accounts of Materials Research, 2021, 2, 407-419. (IF=14.6)
[13] Chunyan Wang, Shuli Wang, Hong Pan, Lingli Min, Huili Zheng, Huang Zhu, Gang Liu, Weizhong Yang*, Xinyu Chen, Xu Hou*, Bio-inspired Liquid Gating Membrane-based Catheter with Anti-coagulation and Positionally Drug Release Properties, Science Advances, 2020, 6, eabb4700. (IF=13.6)
[14] Shuli Wang, Xian Yang, Feng Wu, Lingli Min, Xinyu Chen, Xu Hou*, Inner Surface Design of Functional Microchannels for Microscale Flow Control, Small, 2020, 16, 1905318. (IF=13.3)
[15] Peng Ge, Shuli Wang, Junhu Zhang*, Bai Yang, Micro-/Nanostructures Meet Anisotropic Wetting: From Preparation Methods to Applications, Materials Horizons, 2020, 7, 2566-2595. (IF=13.3)
[16] Nianzuo Yu, Yongshun Liu*, Shuli Wang, Xiaoduo Tang, Peng Ge, Jingjie Nan, Junhu Zhang*, Bai Yang, Pressure-controlled microfluidic sub-picoliter ultramicro-volume syringes based on integrated micro-nanostructure arrays, Lab on a Chip, 2019, 19, 3368-3374. (IF=6.1)
[17] Shuli Wang, Yongshun Liu, Peng Ge, Qiqi Kan, Nianzuo Yu, Jing Wang, Shunsheng Ye, Junhu Zhang*, Weiqing Xu, Bai Yang, Colloidal lithography-based fabrication of highly-ordered nanofluidic channels with an ultra-high surface-to-volume ratio, Lab on a Chip, 2018, 18, 979-988. (IF=6.1)
[18] Nianzuo Yu, Shuli Wang, Huiwen Liu, Peng Ge, Jingjie Nan, Shunsheng Ye, Junhu Zhang*, Bai Yang, Integrated Obstacle Microstructures for Gas-Liquid Separation and Flow Switching in Microfluidic Networks, Sensors and Actuators B-Chemical, 2018, 256, 735-743. (IF=8.4)
[19] Shuli Wang, Nianzuo Yu, Tieqiang Wang, Peng Ge, Shunsheng Ye, Wending Liu, Huaizhong Shen, Junhu Zhang*, Bai Yang, Morphology-Patterned Anisotropic Wetting Surface for Fluid Control and Gas–Liquid Separation in Microfluidics, ACS Applied Materials & Interfaces, 2016, 8, 13094-13103. (IF=9.5)
[20] Shuli Wang, Tieqiang Wang, Peng Ge, Peihong Xue, Shunsheng Ye, Hongxu Chen, Zibo Li, Junhu Zhang*, Bai Yang, Controlling Flow Behavior of Water in Microfluidics with a Chemically Patterned Anisotropic Wetting Surface, Langmuir, 2015, 31, 4032-4039. (IF=3.9)
专利:
[1] 王树立,郭文安,吴挺竹,刘时彪,严梓峻,王煜辉,孔学敏,吕毅军,林岳,陈忠,制备全彩化Micro-LED显示器件的多色量子点电泳沉积系统及应用,CN2023111576555;
[2] 王树立,郭文安,孔学敏,王煜辉,罗云姝,刘时彪,吴挺竹,林岳,陈忠,基于开放式微流控技术的Micro-LED全彩化显示器件制备方法,CN202310783420.0;
[3] 陈忠,王煜辉,王树立,郭文安,孔学敏,罗云姝,章志清,吴挺竹,林岳,吕毅军,一种基于立体微腔阵列的量子点Micro-LED色转换层的制作方法,CN202311599605.2;
[4] 吴挺竹,郭文安,王树立,赖寿强,卢霆威,吕毅军,林岳,陈忠, 基于微通道与电泳沉积制备量子点色转换层的方法及应用,CN202311270484.7;
[5] 吴挺竹,郭文安,王树立,刘时彪,刘俊儒,王煜辉,苏毓涵,林岳,吕毅军,陈忠,一种基于电泳沉积量子点制备全彩器件色转换层的方法,CN202310717239.X;
[6] 林岳,范小通,杨晓,陈益航,王树立,陈忠,一种用于LED色转换技术的双组分多重核壳结构钙钛矿量子点制备路线,CN202310590479.8;
[7] 林岳,陈益航,杨晓,范小通,王树立,陈忠,一种实现超高分辨率三维EHD打印全彩化微结构色转换层的方法;
[8] 王树立,孔学敏,罗云姝,范小通,刘俊儒,黎赛军,林岳,吴挺竹,陈忠,一种厚度可控的量子点色转换层制备方法及其应用,CN202310332573.3;
[9] 吴挺竹,严梓峻,林岳,王树立,刘时彪,赖寿强,杨晓,吕毅军,陈忠,用于量子点无损光刻图案化的方法及其荧光色转换层和Micro-LED全彩化器件,CN202310188414.0;
[10] 王树立,孔学敏,郭文安,黎赛军,刘俊儒,王煜辉,刘时彪,林岳,吴挺竹,吕毅军,陈忠,基于微流控和量子点光刻的Micro-LED全彩化显示器件制作方法,CN202211441087.7;
[11] 王树立,郭文安,吴挺竹,孔学敏,刘时彪,郭自泉,陈国龙,林岳,吕毅军,陈忠,基于微流控技术的高品质Micro-LED全彩显示器件及制备方法,CN202211444320.7;
[12] 吴挺竹,郭文安,王树立,刘时彪,孔学敏,黎赛军,赵志,王震,林岳,吕毅军,陈忠,一种基于微流控技术粗糙表面量子点图案沉积方法及应用,CN202211258999.0;
[13] 侯旭,卞发洲,郑靖,王树立,高晗翕,一种集多通道孔径检测及纳米孔制备于一体的装置及其使用方法,ZL202211135546.9;
[14]侯旭,沈毅刚,王树立,张俭,一种高通量的颗粒操控系统及检测方法,ZL202210799548.1;
[15] 王树立,刘时彪,吴挺竹,黎赛军,郭文安,王震,林岳,郭伟杰,陈忠,一种基于表面预处理的量子点图案制备方法,CN202210295814.7;
[16] 陈忠,王树立,刘时彪,吴挺竹,卢霆威,赖寿强,张翠蓉,郭伟杰,林岳,一种量子点色转换层及其制备方法和应用,CN202210169794.9;
[17] 侯旭,王辉猛,樊漪,王树立,侯雅琦,一种基于主客体作用的定量物质释放系统及方法,ZL202110995230.6;
[18] 侯旭,王树立,杨仙,张运茂,一种仿生液态离子导体及其制备方法和应用,ZL202010591054.5。
[19] 侯旭,吴锋,王树立,盛智芝,一种基于仿生响应性液体门控的微流控系统及控制方法,ZL201910070035.5;
[20] 张俊虎,王树立,杨柏,一种基于纳米结构之间纳米缝隙的微-纳流控芯片及其制备方法,ZL201810003426.0。