一、个人简介

王楠，博士，大连理工大学集成电路学院副教授，现担任半导体传感器与集成微系统研究中心副主任，集成电路学院科研秘书。先后从新加坡南洋理工大学获得硕士学位和博士学位。2016年，作为访问学者受邀在麻省理工学院机械工程系访学。2017年，在新加坡-麻省理工学院研究与技术联盟中心开始了博士后的研究工作。随后，在新加坡科技设计大学担任博士后研究员。相关科研成果已发表在国际高水平学术期刊  (Sensors and Actuators B：Chemical、Microchimica Acta、Nano Energy、ACS Applied Materials & Interfaces等) 以及具有国际影响力的学术会议上 (IEEE TRANSDUCERS、MicroTAS、APCOT、IEEE MEMS、BIOSENSORS、IEEE SENSORS、IEEE INEC等)。长期担任Analytical Chemistry、ACS Sensors、Polymers等国际学术期刊的审稿人，是中国微米纳米技术学会的高级会员，与国内外科研学者建立了广泛的交流与合作。主要科研方向包括(1) 基于新型半导体材料和二维材料的电化学传感器；(2) 基于高分子材料的柔性传感器；(3) 基于功能性材料的生物/化学传感器。

二、荣誉及获奖

2022. 12        荣获大连理工大学开发区校区第二届“线上教学创新竞赛”二等奖

2022. 09        荣获大连理工大学2021年度校教学质量优良奖

2021. 12        荣获大连理工大学青年教师讲课竞赛三等奖

2020. 01        被推荐参加2020年全球青年科学家峰会 (新加坡)

2018. 01        在第八届IEEE纳米电子学国际会议上担任分会主席

2018. 01        在第八届IEEE纳米电子学国际会议上做特邀报告

2015. 11        被推荐参加第十届亚洲与大洋洲顶尖大学工学院联盟年会

2013. 01        荣获新加坡-麻省理工学院研究与技术联盟中心全额博士奖学金

2012. 12        荣获南洋理工大学“人因工程学”专业证书

2012. 12        荣获南洋理工大学“杰出表现”荣誉证书

2011. 06        荣获天津理工大学“理工英才”优秀毕业生

2010. 12        荣获天津理工大学“优秀大学生”荣誉称号

2010. 12        荣获天津理工大学人民奖学金一等奖

2010. 03        获批“国家大学生创新性实验计划”国家级项目并以优秀结题

2009. 12        荣获国家励志奖学金

2009. 12        荣获天津理工大学人民奖学金二等奖

2008. 12        荣获天津理工大学人民奖学金一等奖

2008. 05        荣获天津理工大学新生奖学金二等奖

三、代表性学术成果

[1] Wang N., Kanhere E., Triantafyllou M.S., Miao J.M. Shark-inspired MEMS chemical sensor with epithelium-like micropillar electrode array for lead detection. 18th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015, 1464-1467.

[2] Wang N., Kanhere E., Triantafyllou M.S., Miao J.M. Copper detection with bio-inspired MEMS-based electrochemical sensor. 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS), 2015, 23-25.

[3] Wang N., Kanhere E., Miao J.M., Triantafyllou M.S. Miniaturized chemical sensor with bio-inspired micropillar working electrode array for lead detection. Sensors and Actuators B: Chemical, 2016, 233, 249-256.

[4] Wang N., Kitajima M., Mani K., Kanhere E., Whittle A.J., Triantafyllou M.S., Miao J.M. Miniaturized electrochemical sensor modified with aptamers for rapid norovirus detection. 11th IEEE Annual International Conference on Nano/Micro-Engineered and Molecular Systems (NEMS), 2016, 587-590.

[5] Kanhere E., Wang N., Kottapalli A.G.P., Asadnia M., Subramaniam V., Miao J.M., Triantafyllou M.S. Crocodile-inspired dome-shaped pressure receptors for passive hydrodynamic sensing. Bioinspiration & Biomimetics, 2016, 11, 056007.

[6] Kitajima M., Wang N., Tay M.Q.X., Miao J.M., Whittle A.J. Development of a MEMS-based electrochemical aptasensor for norovirus detection. Micro & Nano Letters, 2016, 11, 582-585.

[7] Tao K., Wu J., Tang L.H., Wang N., Lye S.W., Miao J.M. Broadband energy harvesting using a nonlinear 2DOF MEMS electret power generator. 29th IEEE International Conference on Micro Electro Mechanical Systems (MEMS), 2016, 1236-1239.

[8] Wang N. Biological olfaction inspired chemical sensors. In Kottapalli A.G.P., Asadnia M., Miao J.M., Triantafyllou M.S. (Eds.), Biomimetic Microsensors Inspired by Marine Life. Springer, Cham, 2017, 23-51.

[9] Wang N., Kanhere E., Kottapalli A.G.P., Miao J.M., Triantafyllou M.S. Flexible liquid crystal polymer-based electrochemical sensor for in-situ detection of zinc(II) in seawater. Microchimica Acta, 2017, 184, 3007-3015.

[10] Kanhere E., Wang N., Kottapalli A.G.P., Miao J.M., Triantafyllou M.S. Hemispherical array of sensors with contractively wrapped polymer petals for flow sensing. Smart Materials and Structures, 2017, 26, 115008.

[11] Wang N., Choo J.M.H., Kanhere E., Triantafyllou M.S., Miao J.M. Microfabricated thin-film reference electrode for disposable electrochemical sensors. 16th IEEE Sensors Conference (SENSORS), 2017, 1344-1346.

[12] Kanhere E., Wang N., Kottapalli A.G.P., Subramaniam V., Miao J.M., Triantafyllou M.S. Crocodile-inspired dome shaped sensors for underwater object detection. 16th IEEE Sensors Conference (SENSORS), 2017, 1065-1067.

[13] Wang N., Kanhere E., Miao J.M., Triantafyllou M.S. Nanoparticles-modified chemical sensor fabricated on a flexible polymer substrate for cadmium(Ⅱ) detection. Polymers, 2018, 10, 694.

[14] Wang N., Kanhere E., Tao K., Wu J., Miao J.M., Triantafyllou M.S. Water hardness determination using disposable MEMS-based electrochemical sensor. 8th IEEE International Nanoelectronics Conferences (INEC), 2018, 43-44.

[15] Wang N., Kanhere E., Tao K., Hu L.X., Wu J., Miao J.M., Triantafyllou M.S. Investigation of a thin-film quasi-reference electrode fabricated by combined sputtering-evaporation approach. Electroanalysis, 2019, 31, 560-566.

[16] Wu J., Sun Y.M, Wu Z.X., Li X., Wang N., Tao K., Wang G.P. Carbon nanocoil-based fast-response and flexible humidity sensor for multifunctional applications. ACS Applied Materials & Interfaces, 2019, 11, 4242-4251.

[17] Wang N., Miao J.M., Triantafyllou M.S. Chemical sensor for heavy metal detection. US Patent, 2020, 10690647.

[18] Tao K., Yi H.P., Yang Y., Chang H.L., Wu J., Tang L.H., Yang Z.S., Wang N., Hu L.X., Fu Y.Q., Miao J.M., Yuan W.Z. Origami-inspired electret-based triboelectric generator for biomechanical and ocean wave energy harvesting. Nano Energy, 2020, 67, 104197.

[19] Hao S., Zhong S., Ji X.L., Pang K.Y., Wang N., Li H.M., Jiang Y., Lim K.G., Chong T.C., Zhao R., Loke D.K. Activating silent synapses in sulfurized indium selenide for neuromorphic computing. ACS Applied Materials & Interfaces, 2021, 13, 60209–60215.

[20] Wang N., Bora M., Hao S., Tao K., Wu J., Hu L.X., Liao J.J., Lin S.W., Triantafyllou M.S., Li X.G. Hyaluronic acid methacrylate hydrogel-modified electrochemical device for adsorptive removal of lead(II). Biosensors-Basel, 2022, 12, 714.

[21] Li X.L., Sun S.P., Wang N., Huang B.Y., Li X.G. SnTe/SnSe heterojunction based ammonia sensors with excellent withstand to ambient humidities. Small, 2023, 2309831.

[22] Zhang S., Sun S.P., Huang B.Y., Wang N., Li X.G. UV-activated hollow ZnO@TiO2 heterostructured nanaospheres for detecting formaldehyde at room temperature. ACS Applied Materials & Interfaces, 2023, 15, 4329-4342.