个人简历
2005年本科毕业于山东大学应用化学专业,2007年、2011年先后在香港科技大学获得材料科学与工程硕士和纳米科技博士学位,2011~2015年先后在香港科技大学和阿卜杜拉国王科技大学从事博士后研究,2015年7月回国,聘为上海大学材料基因组工程研究院特聘教授,2016年入选上海市浦江人才计划。主持经费超过300万人民币,包括国家自然科学基金面上项目、上海市科委项目、香港创新及科技支援计划、海外研究基金等。在软物质智能材料、微流控芯片及其应用方面有10余年的深入研究,主编《软物质的功能智能特性及其应用》专著(“十三五”国家重点出版物,软物质前沿科学丛书, 科学出版社),参编《中国学科发展战略·软凝聚态物理学》(科学出版社),在ACS Applied Materials and Interface、Analytical Chemistry、Sensors and Actuators B: Chemical、Applied Surface Science、Journal of Colloid and Interface、Soft Matter等国际著名学术期刊发表论文40余篇,SCI他引500余次;研究结果获得多项专利,10余次受邀在国际国内会议上做报告。研究液体在有浸润性差异表面的浸润及去润湿动态过程及其在高通量微液滴阵列芯片的应用,发现非连续去润湿过程的尺度效应实现了表面液滴阵列体积、数量及位置精确可控,并发展了一种新的功能材料微型化定点生长方法,实现了微纳单晶颗粒及薄膜精确可控可定位高通量合成制备及三维尺寸对微纳激光器性能的调控,对于高通量可控合成不同晶向、成分等微纳米功能材料及微纳激光器阵列提供了基础;成功研究出微传感器及加热集成PCR反应硅基微流芯片,为基于微流控芯片技术的病原体(例如新型冠状病毒或者细菌 )快速检测技术研究与示范提供了原型,其原型为深圳市尚维高科有限公司成功研制出快速便携式检测装置样机及可抛式芯片(被Nature Biotechnology引用报到, Nature Biotechnology, 2020, 38, 379–391);研究了添加剂及双液相对巨电流变液宏观性质与微结构的影响,突破巨电流变液易沉降及零场粘度高的关键问题,通过权衡流变性质、分散性和电流密度等性质得到了稳定性好、零场粘度低及高电流变效率的电流变液材料,参与研究出基于电流变液的智能阻尼器原型,实现阻尼通过电场快速数字化可逆控制,达到机械手臂、汽车座椅的减震初步效果。
研究领域
"""""高通量液滴微流控\r软物质智能材料"
近期论文
1.\tYekai Ding, Yinyin Lin, Lidan Zhao, Chang Xue, Mengying Zhang*, Yaying Hong, Suili Peng, Weijia Wen and Jinbo Wu*,“High-throughput and controllable fabrication of soft screen protectors with microlens arrays for light enhancement of OLED displays” Advanced Materials Technologies, 2020, 2000382 DOI: 10.1002/admt.202000382.\r2.\tA stable high-performance isotropic electrorheological elastomer towards controllable and reversible circular motion, Xin Yuan, Xuefeng Zhoua, Yudai Liang, Lijuan Wang, Riming Chen, Mengying Zhang*, Huayan Pu, Shouhu Xuan, Jinbo Wu* and Weijia Wen, Composites Part B: Engineering, 2020, DOI: 10.1016/j.compositesb.2020.107988\r3.\tHighly stable and efficient electrorheological suspensions with hydrophobic interaction, Yudai Liang, Xin Yuan, Lijuan Wang, Xuefeng Zhou, Xiaojun Ren, Yifan Huang, Mengying Zhang*, Jinbo Wu* and Weijia Wen, Journal of Colloid and Interface Science, 564 (2020) 381–391.\r4.\tHuigang Du, Kaiyang Wang, Lidan Zhao, Chang Xue, Mengying Zhang, Weijia Wen,Guichuan Xing, Jinbo Wu*, Size-controlled Patterning of Single-crystalline Perovskites Arrays toward Tunable High-performance Microlaser, ACS Applied Materials and Interface, 2020, 12, 2, 2662-2670 (DOI: 10.1021/acsami.9b18512).\r5.\tXinlian Chen, Bing Ji, Xinghua Gao, Mengying Zhang, ChangXue, Bingpu Zhou*, Jinbo Wu*, “High-throughput generation of a concentration gradient on open arrays by serial and parallel dilution for drug testing and screening”, Sensors and Actuators B: Chemical, 2020, 305, 127487.\r6.\tQian Zhou, Bing Ji, Ge Chen, Yekai Ding, Jinbo Wu*, Juncong She, Shuangpeng Wang, Bingpu Zhou*, “Lithography-free Formation of Controllable Micro-domes via Droplet Templates for Robust, Ultra-sensitive, and Flexible Pressure Sensors”, ACS Applied Nano Mater. 2019, 2, 11, 7178-7187.\r7.\tZhong He, Zengzilu Xia, Mengying Zhang, Jinbo Wu*, and Weijia Wen*, “Calcium Carbonate Mineralization in a Surface-Tension-Confined Droplets Array” Crystals 2019, 9(6), 284.\r8.\tYinyin Lin, Zhongsheng Wu, Mengying Zhang, Jinbo Wu* and Weijia Wen, “Lateral size scaling effect during discontinuous dewetting” Advanced Materials Interfaces, 2018, 5, 1800729.\r9.\tHan Wu, Xinlian Chen, Xinghua Gao, Mengying Zhang, Jinbo Wu* and Weijia Wen, “High-Throughput Generation of Durable Droplet Arrays for Single Cell Encapsulation, Culture and Monitoring” Analytical Chemistry, 2018, 90, 4303−4309.\r10.\tYinyin Lin, Zhongsheng Wu, Yibo Gao, Jinbo Wu* and Weijia Wen, “High-throughput controllable generation of droplet arrays with low consumption” Applied Surface Science, 2018, 442, 189-194.\r11.\tZhichao XU, Yaying HONG, Mengying ZHANG, Jinbo Wu* and Weijia Wen*, “Performance tuning of giant electrorheological fluids by interfacial tailoring” Soft Matter, 2018, 14, 1427-1433. (DOI: 10.1039/C7SM02355C.)\r12.\tZhongsheng WU, Yinyin LIN, Juanjuan XING, Mengying ZHANG and Jinbo WU*, Surface-tension-confined assembly of metal–organic framework in femtoliter droplet arrays, RSC Advances, 2018, 8, 3680 – 3686.\r13.\tXinlian CHEN, Han WU and Jinbo WU*, Surface-tension-confined droplet microfluidics, Chinese Physics B, Vol.27, No.2 (2018) 029202.\r14.\tHan WU, Zhichao XU, Jinbo WU*, and Weijia Wen*, “Research progress of field-induced soft smart materials”, International Journal of Modern Physics B 2018, 32, 1840010.\r15.\tJinbo WU*, Lianbin Zhang, Yuchao Wang and Peng Wang, “Efficient and Anisotropic Fog Harvesting on a Hybrid and Directional Surface”, Advanced Materials Interfaces, 2017, 4, 1600801.\r16.\tJinbo WU, Rimantas Kodzius, Wenbin Cao and Weijia Wen, “Extraction, amplification and detection of DNA in microfluidic chip-based assays”, Microchim Acta (Invited Review), 2014, 181 (13-14) :1611-1631\r17.\tJinbo Wu, Tsz Yan kwok, Xiaolin Li, Wenbin Cao, Yu Wang, Junying Huang, Yaying Hong, Dongen Zhang and Weijia Wen, “Mapping three-dimensional temperature in microfluidic chip”, Scientific Report, 3:3321, 2013, DOI:10.1038/srep03321.\r18.\tJinbo Wu, Mengying Zhang, Xiaolin Li and Weijia Wen, “Multiple and high-throughput droplet reactions via combination of micro-sampling technique and microfluidic chip”, Analytical Chemistry, 2012, 84, 9689–9693.\r19.\tJinbo Wu, Weijia Wen and Ping Sheng, “Smart electroresponsive droplet in microfluidics”, Soft Matter (Invited Review), 2012, 8, 11589-11599.\r20.\tJinbo Wu, Rimantas Kodzius, Kang Xiao, Jianhua Qin and Weijia Wen, “Fast detection of genetic information by an optimized PCR in an interchangeable PCR chip”, Biomedical Microdevices, 2012, 14, 179-186.\r21.\tJinbo Wu, Mengying Zhang, Longqing Chen, Vivian Yu, Joseph Tin-Yum Wong, Xixiang Zhang, Jianhua Qin and Weijia Wen, “Patterning cell using Si-stencil for high-throughput assay”, RSC Advances, 2011, 1, 746-750.\r22.\tJinbo Wu, Mengying Zhang, Xiang Wang, Shunbo Li and Weijia Wen, “A Simple Approach for Local Contact Angle Determination on a Heterogeneous Surface” Langmuir, 2011, 27, 5705-5708.\r23.\tJinbo Wu, Wenbin Cao, Weijia Wen, Donald Choy Chang, and Ping Sheng, “Polydimethylsiloxane microfluidic chip with integrated microheater and thermal sensor”, Biomicrofluidics, 2009, 3, 012005.\r24.\tSynergistic Optimization towards the Sensitivity and Linearity of Flexible Pressure Sensor via Double Conductive Layer and Porous Micro-dome Array, Bing Ji, Qian Zhou, Jinbo Wu, Yibo Gao, Weijia Wen, and Bingpu Zhou, ACS Applied Materials and Interface, 2020, DOI: 10.1021/acsami.0c08910\r25.\tDevelopment of a four-parameter phenomenological model for the nonlinear viscoelastic behaviours of magnetorheological gels, Shaoqi Li, Tingting Tian, Huixing Wang, Yancheng Li, Jianchun Li, Yadong Zhou, Jinbo Wu, Materials and Design, 2020, 194, 108935.\r26.\tDesign, testing and modelling of a tuneable GER fluid damper under shear mode, Sun Yi, Huang Yining, Wang Min, Jinbo Wu, Yuan Shujin, Jiheng Ding, Peng Yan, Pu Huayan, Xie Shaorong, Luo Jun, Smart Materials and Structures, 2020, DOI: 10.1088/1361-665X/ab914a.\r27.\tDesign and experiment of bio-inspired GER fluid damper, Pu Huayan, Huang, Yining , Sun Yi , Wang Min , Yuan Shujin , Kong Zhen , Yang Peipei , Chu Liufeng , Wu Jinbo , Peng Yan , Xie Shaorong , Luo Jun, SCIENCE CHINA Information Sciences, 2020, 63: 170206. DOI: 10.1007/s11432-019-2752-3.\r28.\tGe Chen, Bing Ji, Yibo Gao, Cong Wang, Jinbo Wu, Bingpu Zhou⁎, Weijia Wen Towards the rapid and efficient mixing on 'open-surface' droplet-based microfluidics via magnetic actuation, Sensors & Actuators: B. Chemical 286 (2019) 181–190.\r29.\tBingpu Zhou, Yibo Gao, Jingxuan Tian, Rui Tong, Jinbo Wu, Weijia Wen, “Preparation of orthogonal physicochemical gradients on PDMS surface using microfluidic concentration gradient generator” Applied Surface Science 471 (2019) 213–221.\r30.\tShenghao Wang, Xiaotong Li, Jinbo Wu, Weijia Wen, Yabing Qi, Current Opinion in Electrochemistry, 2018, 11:130–140\r31.\tLianbin Zhang, Jinbo Wu, Mohamed Nejib Hedhili, Xiulin Yang and Peng Wang, “Inkjet printing for direct micropatterning of superhydrophobic surface: toward biomimetic fog harvesting surfaces”, Journal of Materials Chemistry A, 2014, DOI: 10.1039/C4TA05862C.\r32.\tXiping Zeng, Jinbo Wu, Shunbo Li, Yeungyeung Chau, Guanghong He, Weijia Wen, Guozhen Yang, “Perspectives on water science: transport and application of confined water” Science China-Physics, Mechanics and Astronomy, (Invited Review) 2014, DOI: 10.1007/s11433-014-5426-0\r33.\tDongen Zhang, Jinbo Wu, Binpu Zhou, Yaying Hong, Shunbo Li, and Weijia Wen, “Efficient photocatalytic activity with carbon-doped SiO2 nanoparticles”, Nano Scale, 2013,5, 6167-6172.\r34.\tXiao Xiao, Jinbo Wu, Fumiaki Miyamaru, Mengying Zhang, Shunbo Li, Mitsuo W.Takeda, Weijia Wen and Ping Sheng, “Tailoring resonant transmission through hole array by local resonances in THz region”, Applied Physics Letter, 2011, 98, 011911.\r35.\tMengying Zhang, Jinbo Wu, Limu Wang, Kang Xiao and Weijia Wen, “A simple method for fabricating multi-layer PDMS structures for 3D microfluidic chips”, Lab on a Chip, 2010, 10, 1199-1203.\r36.\tXiao Xiao, Jinbo Wu, Yuki Sasagawa, Fumiaki Miyamaru, Mengying Zhang, Mitsuo W. Takeda, Chunyin Qiu, Weijia Wen, and Ping Sheng, “Resonant terahertz transmissions through metal hole array on silicon substrate”, Optics Express, 2010, 18, 18558-18564.\r37.\tMengying Zhang, Jinbo Wu, Xize Niu, Weijia Wen, and Ping Sheng, “Manipulations of microfluidic droplets using electrorheological carrier fluid”, Physical Review E, 2008, 78, 066305.\r38.\tXiuqing Gong, Jinbo Wu, Xianxiang Huang, Weijia Wen and Ping Sheng, “Influence of liquid phase on nanoparticle-based giant electrorheological fluid”, Nanotechnology, 2008, 19, 165602.\r39.\tLianbin Zhang, Bo Tang, Jinbo Wu, Renyuan Li, and Peng Wang, “Hydrophobic Light-to-Heat Conversion Membranes with Self-Healing Ability for Interfacial Solar Heating” Advanced Materials, 2015, DOI: 10.1002/adma.201502362.\r40.\tBo Tang, Lianbin Zhang, Renyuan Li, Jinbo Wu, Mohamed Neijib Hedhili, and peng wang, “Are vacuum-filtrated reduced graphene oxide membranes symmetric?”, Nano Scale, 2016, 8, 1108. \r41.\tYuchao Wang, Lianbin Zhang, Jinbo Wu, Mohamed Nejib Hedhili, and Peng wang, “A facile strategy for the fabrication of a bioinspired hydrophilic-superhydrophobic patterned surface for highly efficient fog-harvesting”, Journal of Materials Chemistry A, 2015, 3, 18963. \r42.\tCong Wang, Xinghua Gao, Yibo Gao, Wenbin Cao, Jingxuan Tian, Xiaoxiao Wu, Ziran Ye, Xiping Zeng, Bingpu Zhou, Jinbo Wu, Zhengyu Fang, Jun Wan, Jianhua Qind, and Weijia Wen, “Controlled H2O2 release via long-lived electron–hole separation mediated to induce tumor cell apoptosis”, Journal of Materials Chemistry B, 2015, 3, 8115.\r43.\tMing Li, Shunbo Li, Jinbo Wu, Weihua Li and Weijia Wen, “A simple and cost-effective method for fabrication of integrated electronic-microfluidic devices using a laser-patterned PDMS layer” Microfluid and Nanofluid, 2012, 12, 751–760.\r44.\tRimantas Kodzius, Kang Xiao, Jinbo Wu, Xin Yi, Xiuqing Gong, Vivian Yu, Donald Choy Chang and Weijia Wen, “Inhibitory effect of common microfluidic materials on PCR outcome”, Sensors & Actuators: B. Chemical, 2012, 161, 349-358.\r45.\tXize Niu, Mengying Zhang, Jinbo Wu, Weijia Wen and Ping Sheng, “Generation and manipulation of ‘‘smart’’ droplets”, Soft Matter, 2009, 5, 576-581.\r46.\tLiyu Liu, Wenbin Cao, Jinbo Wu, Weijia Wen, Donald Choy Chang, and Ping Sheng, “Design and integration of an all-in-one biomicrofluidic chip”, Biomicrofluidics, 2008, 2, 034103.\r47.\tMengying Zhang, Limu Wang, Xiang Wang, Jinbo Wu, Jiaxing Li, Xiuqing Gong, Jianhua Qin, Weihua Li and Weijia Wen, “Microdroplets-based Universal Logic Gates by Electrorheological fluid”, Soft Matter, 2011, 7, 7493-7497.\r48.\tLimu Wang, Mengying Zhang, Min Yang, Weiming Zhu, Jinbo Wu, Xiuqing Gong, and Weijia Wen, “Polydimethylsiloxane-integratable micropressure sensor for microfluidic chips”, Biomicrofluidics, 2009, 3, 034105.
