天津工业大学艺术学院导师介绍·刘皓
发布时间:2022-09-14 点击数:1286
刘皓 教授 博士
教育简历:
l 天津工业大学,纺织工程专业,博士学位, 2011.07
l 天津工业大学,纺织材料与纺织品设计专业,硕士学位, 2004.03
l 天津工业大学,纺织材料与纺织品设计专业,学士学位, 2001.06
课程教学:
l 纺织仪器学
l 虚拟仪器技术
l 创新研究方法与实践
l 智能纺织品开发与应用
研究方向:智能纺织品、智能服装服饰、柔性电子器件与电路
主要获奖:
(1)智能感温控温加热服装/服饰的研发与销售,第六届中国国际“互联网+”大赛学生创新创业大赛高教主赛道创意组三等奖,天津工业大学,2020.08
(2)获得2019年度“纺织之光”奖教金。
(3)2019年11月,项目“Smart temperature and pressuresensing and heating garment”获第二届智汇纺织设计大赛WTTDC2019(上海)二等奖,第一指导教师。
(4)2019年11月,项目“柔性镍锌织物电池”获第二届智汇纺织设计大赛WTTDC 2019(上海)三等奖,第一指导教师。
(5)2016年12月,项目“基于手机客户端的智能温控护膝”获天津赛区决赛一等奖;中国智能及新型服饰创新创业大赛组委会,第一指导教师。
(6)2016年12月,项目“可穿戴心电监护系统的研发与应用”获天津赛区决赛二等奖,中国智能及新型服饰创新创业大赛组委会,第一指导教师。
(7)2016年10月,项目“健康监护服装的研发与网络销售”获得二等奖,第二届中国“互联网+” 大学生创新创业大赛天津赛区组委会,第一指导教师。
(8)静电喷射沉积碳纳米管增强碳纤维及其复合材料关键技术与应用,中国纺织工业联合会科学技术进步一等奖,排名11,J-2018-1-07-R11
主要研究课题:
(1) 冬季运动与训练比赛高性能服装研发关键技术,科技部国家重点研发计划“科技冬奥”重点专项2019YFF0302100,子课题5.冬季运动耐低温保障服装关键技术研究与制备应用2019YFF0302105,2019.10-2022.09,121万
(2) 纳米阵列导电膜/单面电极结构温度-压力响应柔性传感器的构建及传感器机理,天津市自然科学基金面上项目,2018.04-2021.03, 10万,主持。(18JCYBJC18500)
(3) 柔性加热织物、加热服装服饰的制备及其产业化,中国纺织工业联合会科技指导性项目,2017.5-2020.5, 20万,主持。(2017060)
(4) 微针阵列表面生物电干电极的构建及动态噪声机理研究,中国博士后科学基金二等资助(2016M591390),2016.1.1-2018.12.30, 5万,主持;
(5) 仿壁虎脚表面生物电干电极的构建及动态噪声机理研究,国家自然科学基金面上项目(51473122), 2015.1-2018.12, 72万, 主持;
(6) 三维立体织造及光纤光栅-生物电监测多传感器一体化设计研究,航宇救生装备有限公司,2021.08.17-2022.04.30,主持,34.9万
(7) 监测汗液量及成分与血压柔性传感器的研发,合肥华米微电子有限公司,2020.10.30-2021.04.30,主持,15万
(8) 穿戴式心电电极性能评价测试平台,横向,中国航天员科研训练中心航天医学基础与应用国家重点实验室,2015.11-2016.11, 14万,主持;
代表性著作与论文:
[1] Niu X., Wang L.Z., Li H., Wang T.Y. , Liu H.*, He Y.*. Fructus Xanthii-Inspired Low Dynamic Noise Dry Bioelectrodes for Surface Monitoring of ECG[J], ACS Applied Materials & Interfaces. 2022.
[2] Ma X., Chen H.Q., Zhang P.W., Hartel M.C., Cao X.N., Dilteniz S.E., Zhang Q.L., Iqbal J., de Barros N., R., Liu L.Y., Liu H.*. OFET and OECT, Two Types of Organic Thin-Film Transistor Used in Glucose and DNA Biosensors: A Review[J], IEEE Sensors Journal, 2022, 22(12):11404-11414.
[3] Gunasekara D.S.W, Niu X., Lqbal. W, He Y., Liu H.*. Pyrrole Coating with In Situ Polymerization for Piezoresistive Sensor Development - A Review[J], Macromolecular Research, 2022, 30(3): 153-162. 000775102100001
[4] Ni H.S., Fang S., Wang T.Y., Liu Y.T., Liu H.*, Liu L.*, Wang R.. Flexible carbonized cotton/thermoplastic polyurethane composites with outstanding electric heating and pressure sensing performance[J], Textile Research Journal. 2022. 000747832300001
[5] Wang X.J., Gao X.Y., Wang Y., Niu X., Wang T.Y., Liu Y.J., Qi F.X., Jiang Y.M., Liu H.*. Development of High-Sensitivity Piezoresistive Sensors Based on Highly Breathable Spacer Fabric with TPU/PPy/PDA Coating[J], Polymers, 2022, 14(5): 859.
[6] Wang X.J., Li H., Wang T.Y., Niu X., Wang Y, Xu S.Y., Jiang Y.M., Chen L., Liu H.*. Flexible and high-performance piezoresistive strain sensors based on multi-walled carbon nanotubes@polyurethane foam[J], RSC Advances, 2022, 12(22): 14190-14196.
[7] Niu Xin, Gao Xinhua, Liu Yuefeng, Liu Hao*. Surface bioelectric dry electrodes: a review,Measurement, 2021.
[8] Dilini S.W. Gunasekara , Yin He, Hao Liu*, and Li Liu*, Smart Wearable, Highly Sensitive Pressure Sensor with MWNTs/PPy Aerogel Composite, Fibers and Polymers, 2021
[9] Yanlin Zhang, Xubin Zhu, Yitao Liu, Li Liu, Qiang Xu, Hao Liu*, Wei Wang*, Li Chen*, Ultra-stretchable monofilament flexible sensor with low hysteresis and linearity based on MWCNTs/Ecoflex composite materials, Macromolecular Materials and Engineering,2021
[10] Maoqi Wu, Zhaopeng Xia, Zhaofei Mao, Jingliang Lu, Jing Yan, Zheng Li, Yin He, Hao Liu*, Bowen Cheng. Stretchable Ni–Zn fabric battery based on sewable core–shell SCNF@Ni@NiCo LDHs thread cathode for wearable smart garment[J]. J Mater Sci (2021).
[11] Wang Y., Gan S.J., Meng J., Yang J.J.,Liu H.*, Shi L.*, Chen L.*.Layered Nanofiber Yarn for High-Performance Flexible All-Solid Supercapacitor Electrodes[J]. Journal of Physical Chemistry C, 2021, 125, 2, 1190–1199.
[12] Lu Y.W. #, He Y. #, Qiao J.T., Niu X., Li X.J., LiuH. *, Liu L.*.Highly Sensitive Interlocked Piezoresistive Sensors Based on Ultrathin Ordered Nanocone Array Films and Their Sensitivity Simulation[J]. ACS Appl. Mater. Interfaces, 2020, 12, 55169−55180.
[13] Wang Y., Li J., Wu M.Q.,Liu H.*.Preparation and Characterization of Nitrogen-Doped Reduced Graphene OxideCobalt Tetraoxide Bifunctional Catalyst[J]. CHINESE JOURNAL OF INORGANIC CHEMISTRY, 2020, 36(05):802-810.
[14] Lu Y.W., Xu L., He Y., Chen L., Liu H.*, Liu L., Li X.J..Thermal induced color-changing silver plating polyamide fabrics in low electric voltage[J]. Journal of The Textile Institute, 2020,1754-2340.
[15] He Y., Zhao L.D., Zhang J.L., Liu L.Y., Liu H.*, Liu L.*. A breathable, sensitive and wearable piezoresistive sensor based on hierarchical micro-porous PU@CNT films for long-term health monitoring[J].Composites Science and Technology, 2020, 200(11), 108419
[16] Zhang Y.L., Guo X., Wang W., Chen L., Liu L., LiuH.*, HeY.*. Highly sensitive, low hysteretic and flexible strain sensor based on Ecoflex-AgNWs-MWCNTs flexible composite materials[J]. IEEE Sensors Journal,vol. 20, no. 23, pp. 14118-14125, 1 Dec.1,2020
[17] He Y., Zhao L.D., Wang X.J., Liu L.,Liu H.*.Microstructured Hybrid Nanocomposites Flexible Piezoresistive Sensor and Its Sensitivity analysis by Mechanic Finite-Element Simulation[J]. Nanotechnology,2020, 31(18):185502.
[18] Wang Y., Li J., Wu M.Q.,Liu H.*.Preparation and Characterization of Nitrogen-Doped Reduced Graphene OxideCobalt Tetraoxide Bifunctional Catalyst[J]. CHINESE JOURNAL OF INORGANIC CHEMISTRY, 2020, 36(05):802-810.
[19] Gunasekara D.S.W#, He Y.#, Fang S., Zhao L.D.,Liu H.*, Liu L.*.High-repeatability macro-porous sponge piezo-resistive pressure sensor with polydopamine/poly-pyrrole composite coating based on in-situ polymerization method[J]. Applied Physics A, 2020, 126(10), 1-11.
[20] Liu L.Y., Ma M.J., Tang D.Y., Hu Y.,Liu H.*.Fabrication and characterization of moisture slow-releasing embroidered electrode and ecg monitoring belt[J]. Fibers and Polymers, 2020, 21(12), 3000-3008.