一、团队简介
“智能传感”研究团队成立于2018年7月,现有教师14人,其中国家级人才一人,省级人才一人,依托伟德bv1946官网、前沿交叉研究院开展“医工结合”、“核材结合”的科研和公司产品,在面向临床医学的电子鼻、电子皮肤、电子舌,面向极端环境的核电池,两个研究主题中的开展关键材料、器件技术,人工智能算法、系统样机的全链条研究。
二、团队2022年拟招生的研究方向和预设课题
团队在传感器方向的研究属于交叉前沿研究工作,研究课题具有鲜明的学科交叉特性,同时贴近“物联网”产业需求,研究生发表SCI TOP论文为主,硕士毕业生可去医疗器械、华为、中兴、电力电子等企业就业,课题内容简述如下:
1.电子鼻
半导体高分子器件与应用-基于新型半导体高分子和有机无机杂化材料开展场效应管传感器研究(硕士一人)
小分子半导体器件与应用-基于新型有机小分子电子给/受体材料(硕士一人),开展光激发的无源传感器、能源器件的设计、制备和机理研究(硕士一人)
无机纳米材料器件与应用-金属氧化物纳米异质结材料的电阻变化型传感器设计与制备(硕士一人),新型二维纳米材料场效应传感器光调控机制(硕士一人)、固态离子导体的混合电位传感器阵列研究(硕士一人)
聚合物刷薄膜器件与应用-基于聚合物刷膜材料开展石英晶振微天平传感器阵列、聚合物刷绝缘栅场效应管传感器研究(硕士一人)
微流控芯片与挥发物组学-基于纳米纤维素材料和微流控芯片技术,开展阵列传感器微流控芯片研究;基于PY-GC-MS实验平台,开展疾病挥发物组学研究(硕士一人)
挥发物分离膜及时间分辨传感系统-基于多孔材料,开展气体分离膜的合成、结构调控及其在时间分辨传感系统中的集成研究(硕士一人)
人工智能算法-针对全组的传感系统信号和挥发物组学谱图,研究高精度、高速人工智能算法(硕士一人)
2.电子皮肤
超灵敏生理信号传感系统-研究超灵敏应力应变柔性传感器的材料合成、拓扑导电网络设计和脉搏、心跳、呼吸音监测应用(硕士一人)
水凝胶仿生传感器和系统-研究水凝胶合成、传感器及系统、脑机接口电极研究(硕士一人)
3.电子舌
基于微纳电极的电化学传感器件与应用-研究插指电化学微纳电极的制备、电化学反应机理研究、及其在超低浓度和瞬态检测方面的应用(硕士一人)
基于纳米导电纤维门电极的有机电化学场效应管器件与应用-研究纳米导电纤维的制备、探针修饰、有机电化学场效应管器件构建和临床医学诊断研究(硕士一人)
团队在核电池方向的研究课题主要服务于国家特殊需求,研究生成果主要以SCI论文和发明专利为主,研究生毕业可推荐进入各研究所工作:
β辐伏核电池器件与系统-借助实验室独有的β射线面加速器,开展β辐伏核电池和探测器应用研究(硕士一人)
红外热光电核电池器件与系统-对系统的黑体辐射器、能量过滤器和红外光电转换器开展研究(硕士一人)
三、团队团队力量
团队现有教师14人(国家级人才一人、省级人才一人),其中教授1人、华山学者菁英教授1人、副教授1人、华山学者菁英副教授2人,华山学者准聘副教授2人,讲师7人,其中博士生导师2人,硕士生导师8人。团队教师年轻(40岁以下10人)来自物理、材料、化学、微电子、力学、造纸、计算机七个学科,且国际化程度高,其中8人具有海外经历,研究的研究课题普遍进行国际合作,在未来博士生的国际联合培养和博士后职位推荐上具有较大优势。
四、公司产品平台
团队现有实验室200 m2,各类型实验设备总价值500余万,覆盖材料制备、器件加工、电子器件性能测试全链条,为研究生的科研工作提供了良好的平台。团队特色实验平台包括:阵列型挥发性有机化合物测试系统(气体发生和测量)、面电子束实验平台(面斑直径10 cm,能量0-90keV,束流20 pA-20 μA/cm2)、材料制备平台(涵盖化学合成与高温固相合成)、PY-GC-MS(涵盖挥发性有机化合物定量测试实验)。
五、团队文化
工作努力,区别化时间管理
因材施教,培养科学和工程思维
亦师亦友,师生相互成就
尊重个性,注重员工独立思维和人格的养成
六、研究生毕业去向
团队目前保持每年都有人获得国家奖学金,共毕业三名硕士生,一人华为工作、一人中兴工作、一人前往以色列本古里安大学继续攻读博士学位,一人高校工作,目前研三员工中已经有一人确定中国核动力研究设计院工作。
七、团队研究工作基础
团队成员(粗体)在材料、化学、造纸和传感器领域的代表性研究基础和部分封面工作展示:
(1) Broza, Yoav Y., Xi Zhou, Miaomiao Yuan, Danyao Qu, Youbing Zheng, Rotem Vishinkin, Muhammad Khatib, Weiwei Wu*, Hossam Haick*. "Disease Detection with Molecular Biomarkers: From Chemistry of Body Fluids to Nature-Inspired Chemical Sensors." Chemical Reviews, 2019,119, 22, 11761-11817
(2) Horev, Y. D., Maity, A., Zheng, Y., Milyutin, Y., Khatib, M., Yuan, M., Suckeveriene R. Y., Tang N., Wu W*., Haick, H*. Stretchable and Highly Permeable Nanofibrous Sensors for Detecting Complex Human Body Motion. Advanced Materials, 2021, 2102488.
(3) Weiwei Wu, Hossam Haick*, Materials and Wearable Devices for Autonomous Monitoring of Physiological Markers, Advanced Materials, 2018, 1705024.
(4) Weiwei Wu,Li Cheng,Suo Bai,Zhonglin Wang*,Yong Qin*,Directional Transport of Polymer Sheet and a Microsphere by a Rationally Aligned Nanowire Array,Advanced Materials,2012,24:817-821。
(5) Li, P., Schott, J. A., Zhang, J., Mahurin, S. M., Sheng, Y., Qiao, Z. A., Dai, S. (2017). Electrostatic‐Assisted Liquefaction of Porous Carbons. Angewandte Chemie International Edition, 129(47), 15154-15158.
(6) Du Tao; Li Bin; Wang Xiaolong; Yu Bo; Pei Xiaowei; Huck Wilhelm T. S.; and Zhou Feng*. Bio-Inspired Renewable Surface-Initiated Polymerization from Permanently Embedded Initiators. Angewandte Chemie International Edition, 2016, 55, 4260-4264
(7) Feng Huanran; Yi Yuan-Qiu-Qiang; Ke Xin; Yan Jing; Zhang Yamin; Wan Xiangjian; Li Chenxi; Zheng Nan; Xie Zengqi; Chen Yongsheng*; New Anthracene-fused Non-fullerene Acceptors for High-efficiency Organic Solar Cells: Energy Level Modulations Enabling Match of Donor and Acceptor, Advanced Energy Materials, 2019, 9: 1803541.
(8) Li, Y.; Li, Y.; Wan, Y.; Xie, Y.; Zhu, J.; Pan, H.; Zheng, X.; Xia, C., Perovskite Oxyfluoride Electrode Enabling Direct Electrolyzing Carbon Dioxide with Excellent Electrochemical Performances. Advanced Energy Materials 2019, 9 (3), 1803156.
(9) Zheng, Y., Tang, N., Omar, R., Hu, Z., Duong, T., Wang, J., Wu W*., Haick, H*. Smart Materials Enabled with Artificial Intelligence for Healthcare Wearables. Advanced Functional Materials, 2021, 2105482.
(10) Weiwei Wu, Bin Wang, Meital Segev-Bar, Wei Dou, Fang Niu, Yehu David Horev, Yunfeng Deng, Marian Plotkin, Tan-Phat Huynh, Raneen Jeries, Han Zhu, A’laa Garaa, Shifaa’ Badarneh, Linfeng Chen, Mingliang Du, Wenwen Hu, Hossam Haick*,Free-Standing and Eco-Friendly Polyaniline Thin Films for Multifunctional Sensing of Physical and Chemical Stimuli, Advanced Functional Materials, 2017, 27(40), 1703147.
(11) Lu Zhang, Suo Bai, Chen Su, Yong Qin*, Chen Xu*, Zhonglin Wang*, A High-Reliability Kevlar Fiber-ZnO Nanowires Hybrid Nanogenerator And Its Application on Self-Powered UV Detection, Advanced Functional Materials, 2015, 25, 36, 5794–5798
(12) Suo Bai,Weiwei Wu,Yong Qin*,Nuanyang Cui,Dylan Bayer,Xudong Wang*,High-Performance Integrated ZnO Nanowire UV Sensors on Rigid and Flexible Substrates,Advanced Functional Materials,2011,21:4464-4469。(与第一作者平均贡献)
(13) Suo Bai, Lu Zhang, Qi Xu, Youbin Zheng, Yong Qin*, Zhonglin Wang*, Two Dimensional Woven Nanogenerator, Nano Energy, 2013, 2, 5, 749-753。(与第一作者平均贡献)
(14) Weiwei Wu,Suo Bai,Miaomiao Yuan,Yong Qin*,Zhong Lin Wang*,Tao Jing,Lead Zirconate Titanate Nanowire Textile Nanogenerator for Wearable Energy-Harvesting and Self-Powered Devices,ACS Nano,2012,6:6231-6235。
(15) Yingying Jian, Wenwen Hu, Zhenhuan Zhao, Pengfei Cheng, Hossam Haick*, Mingshui Yao,* Weiwei Wu,* Gas Sensors Based on Chemi‐Resistive Hybrid Functional Nanomaterials, Nano-Micro Letters, 2020, 12, 71.
(16) Danyao Qu, Yingying Jian, Lihao Guo, Chen Su, Ning Tang, Xingmao Zhang, Wenwen Hu, Zheng Wang, Zhenhuan Zhao, Peng Zhong, Peipei Li, Tao Du*, Hossam Haick*,and Weiwei Wu,* Organic Solvent Assisted Intercalation and Collection for Ti3C2Tx MXene with Controllable Sizes and Improved Yield, Nano-Micro Letters, 2021
(17) Du Tao; Ma Shuanhong; Pei Xiaowei; Wang Shutao; and Zhou Feng*. Bio-Inspired Design and Fabrication of Micro/Nano-Brush Dual Structural Surfaces for Switchable Oil Adhesion and Antifouling. Small, 2017, 13, 1602020
(18) Li, P.,* Wang, D., Zhang, L., Liu, C., Wu, F., Wang, Y., Wang, Z., Zhao, Z., Wu, W., Liang, Y. and Li, Z.,* An In Situ Coupling Strategy toward Porous Carbon Liquid with Permanent Porosity. Small, 2021, 2006687.
(19) Ning Tang, Cheng Zhou, Danyao Qu, Ye Fang, Youbin Zheng, Wenwen Hu, Ke Jin, Weiwei Wu*, Xuexin Duan, Hossam Haick*, A Highly Aligned Nanowire-Based Strain Sensor for Ultrasensitive Monitoring of Subtle Human Motion, Small, 2020, 16, 24, 2001363.
(20) Ruizhi Ning; Shiqi Wang; Jing Wu; Feng Wang*; Jin-Ming Lin*; ZnO nanowire arrays exhibit cytotoxic distinction to cancer cells with different surface charge density: cytotoxicity is charge‐dependent, Small, 2014, 10: 4113-4117.
(21) Feng Huanran; Qiu Nailiang; Wang Xian; Wang Yunchuang; Kan Bin, Wan Xiangjian; Zhang Mingtao; Xia Andong; Li Chenxi; Liu Feng*; Zhang Hongtao*; Chen Yongsheng*; An A‐D‐A Type Small-Molecule Electron Acceptor with End-Extended Conjugation for High Performance Organic Solar Cells, Chemistry of Materials, 2017, 29: 7908–7917.
(22) Li, Y.; Hu, B.; Xia, C.; Xu, W. Q.; Lemmon, J. P.; Chen, F., A novel fuel electrode enabling direct CO2 electrolysis with excellent and stable cell performance. Journal of Materials Chemistry A, 2017, 5 (39), 20833-20842.
(23) Li, Y.; Li, P.; Hu, B.; Xia, C., A nanostructured ceramic fuel electrode for efficient CO2/H2O electrolysis without safe gas. Journal of Materials Chemistry A, 2016, 4 (23), 9236-9243.
(24) Feng Huanran; Li Miaomiao; Ni Wang; Liu Feng; Wan Xiangjian*; Kan Bin; Wang Yunchuang; Zhang Yamin; Zhang Qian; Zuo Yi; Yang Xuan; Chen Yongsheng*; Investigation of The Effect of Large Aromatic Fusion in the Small Molecule Backbone On the Solar Cell Device Fill Factor, Journal of Materials Chemistry A, 2015, 3: 16679–16687.
(25) Weiwei Wu,Li Cheng,Suo Bai,Wei Dou,Qi Xu,Zhiyang Wei,Yong Qin*, Electrospinning Lead-free 0.5Ba(Zr0.2Ti0.8)O3-0.5(Ba0.7Ca0.3)TiO3 Nanowires and Their Application in Energy Harvesting,Journal of Materials Chemistry A,2013,1:7332-7338。
(26) Yunfeng Deng, Jiaxing Sun, Han Jin, Muhammad Khatib, Xianhui Li, Zongsu Wei, Feng Wang, Yehu David Horev, Weiwei Wu,* and Hossam Haick*,Chemically Modified Polyaniline for the Detection of Volatile Biomarkers of Minimal Sensitivity to Humidity and Bending,Advanced Healthcare Materials 2018, 1800232
(27) Ruizhi Ning; Feng Wang; Ling Lin*; Biomaterial-based microfluidics for cell culture and analysis, Trends in Analytical Chemistry, 2016, 80: 255-265
(28) Wenwen Hu, Liangtian Wan, Yingying Jian, Cong Ren, Ke Jin, Xinghua Su, Xiaoxia Bai, Hossam Haick,* Mingshui Yao,* and Weiwei Wu*,Electronic Noses: From Advanced Materials to Sensors Aided with Data Processing, Advanced Materials Technologies, 2019, 1800488 (入选2019年度Advanced Materials Technologies年度最佳论文集-全年20篇)
(29) Ruizhi Ning, Chun-Nan Wu, Miyuki Takeuchi, Tsuguyuki Saito, Akira Isogai Preparation and characterization of zinc oxide/TEMPO-oxidized cellulose nanofibrils composite films. Cellulose, 2017, 24: 4861-4870
八、适应报考的专业、招生人数和考试科目
适应报考的专业:化学、物理、材料、电子科学、人工智能、生物、仪器科学
招生人数:以研究生院当年下达的招生计划为准
考试科目:以学院规定为准
九、奖助学金
依据《bv伟德国际体育官方网站研究生奖助政策体系方案(试行)》文件规定,学校对录取为非定向的全日制在校博士生设立奖学金、助学金及助教、助研、助管、员工辅导员岗位资助员工学习和生活,符合条件的研究生还可以申请国家助学贷款。
十、相关说明
团队联系人:吴巍炜
微信号:31909667
联系邮箱:wwwu@xidian.edu.cn
联系地址:陕西省西安市长安区西沣路兴隆段266号,bv伟德国际体育官方网站,伟德bv1946官网