个人简介
王萍,教授,博士生导师。2012年博士毕业于上海东华大学纺织材料与纺织品设计专业,2011.9-2012.9获得国家留学基金委资助以访问学者身份赴university of california, davis进行为期一年的交流访学。2013年1月进入苏州大学现代丝绸国家工程实验室工作。目前已累计发表sci检索论文80余篇,授权发明专利10余件,实用新型专利30余件。
研究方向
纺织品结构力学,纳米材料制备与表征等
荣誉及获奖情况
1、2014年江苏省“双创博士”
2、2015南通市科技进步奖二等奖
3、2015第十届吴江青少年科技创新政府奖
4、2016中国膜工业协会科学技术奖二等奖
5、2016中国纺织工业联合会科学技术奖三等奖
6、2019中国产学研合作创新成果奖二等奖
7、2020中国纺织工业联合会科学技术奖一等奖
8、2021中国纺织工业联合会科学技术奖二等奖
9、2021年度江苏省科学技术奖三等奖
近年主持的科研项目
1、2015/01-2017/12,国家自然科学基金青年项目
2、2014/07-2017/06,江苏省自然科学基金青年项目
3、2022/07-2025/06,江苏省高等学校自然科学研究重大项目
4、2018/09-2020/08,江苏省高等学校自然科学研究面上项目
5、2018/01-2019/12,江苏省产学研合作项目
6、2021/01-2022/12,中国纺织工业联合会科技指导性项目
7、2013/04-2015/04,中国博士后科学基金面上项目
8、2013/04-2015/04,江苏省博士后基金
9、2015/10-2017/09,南通市市级科技计划项目
10、2022/01-2023/12,江苏省先进纺织工程技术中心科技项目
近五年发表代表性论文
[1] wang ff, zhang y, zhang h, xu l, wang p*, guo cb*. the influence of graphene nanoplatelets (gnps) on semi-blunt puncture behavior of woven fabrics impregnated by shear thickening fluid (stf). rsc advances, 2018, 8(10): 5268-5279.
[2] wang ff, xu l, wang p*, zhang y*. wxcoys core-shell grown on hollow-porous carbon fiber (hcf) as synergetic electrocatalysts for efficient water splitting. electrochimica acta, 2019, 306: 437-445.
[3] wang ff, zhang hm, wang q, fang cc, zhang r, wang p*, zhang y*. preparation and characterization of amt/co(acac)3-loaded pan/ps micro-nanofibers with large through-pores. nanoscale research letters, 2019, 14(1): 290.
[4] wang q, zhang y, chen h, zhang r, yang xh, wang p*, ma pb*. the analysis and comparison of the needle-puncture property of four types of silkworm cocoons. fibers andpolymers, 2020, 21(8): 1868-1877.
[5] fang cc, zhang y, qi sy, li yy, wang p*. characterization and analyses of degradable composites made with needle-punched jute nonwoven and polylactic acid (pla) membrane. cellulose, 2020, 27(10): 5971-5980.
[6] fang cc, zhang y, qi sy, liao yc, li yy, wang p*. influence of structural design on mechanical and thermal properties of jute reinforced polylactic acid (pla) laminated composites. cellulose, 2020, 27(16): 9397-9407.
[7] wang q, zhang y, li yy, xu yk, liao yc, yang xh, wang p*. a new perspective on the needle-puncture property of silkworm cocoons with a hierarchical multi-layer structure. composites communications, 2020, 22: 100539.
[8] he hz, zhang y, li yy, wang p*. recent innovations of silk-derived electrocatalysts for hydrogen evolution reaction, oxygen evolution reaction and oxygen reduction reaction. international journal of hydrogen energy, 2021, 46(11): 7848-7865.
[9] zhang hm, zhang y, zhang jw, ye x, li yy and wang p*. preparation and characterization of flexible pressure sensor based on agnws/nonwoven fabric.polymer composites, 2021, 42: 2523-2530.
[10]he hz, zhang y, wang p* and hu dm*. preparation of sponge-cake-like n-doped porous carbon materials derived from silk fibroin by chemical activation. microporous and mesoporous materials, 2021, 317, 110998.
[11] wang hy, wang p, zhang y*, hu dm*. preparation and characterization of triangular hollow porous polyacrylonitrile fiber made by coaxial wet spinning. journal of applied polymer science, 2021, 138(33):e50816.
[12] li yy#, lyu zq#, wang p, wang yl, chen t, zhang y*. finite element analyses on low-velocity impact responses of three-dimensional braided composites. fibers and polymers, 2021, 22(8): 2296-2305.
[13] he hz, zhang y, zhang wq, li yy, wang y, wang p*, hu dm*. dual metal loaded porous carbon materials derived from silk fibroin as bifunctional electrocatalysts for hydrogen evolution reaction and oxygen evolution reaction. acs applied materials & interfaces, 2021, 13 (26): 30678-30692.
[14] hu jy, zhang y, liang cl, wang p*, hu dm*. the preparation and characteristics of high puncture resistant composites inspired by natural silk cocoon, composites part a-applied science and manufacturing, 2021, 149: 106537.
[15] zhang jw, zhang y, li yy, ye x, wang p*, xu yk*. fabrication of conductive poly(3,4-ethylenedioxythiophene) coated polyester nonwoven fabric and its application on flexible piezoresistive pressure sensors, acs applied electronic materials, 2021, 3(7): 3177-3184.
[16] 王慧云, 王萍, 李媛媛, 张岩*. 中空多孔异形聚丙烯腈纤维的制备及其性能. 纺织学报, 2021, 42(03): 50-55.
[17] 宋雪旸, 张岩, 徐成功, 王萍*, 阮芳涛. 碳纤维/聚丙烯/聚乳酸增强复合材料力学性能研究. 纺织学报, 2021, 42(11): 84-88.
[18] 王亚兰, 李煜炜, 王慧云, 王萍, 李媛媛, 张岩. 纺织结构树脂基复合材料热传导性能研究进展. 现代丝绸科学与技术, 2021, 36(2): 27-31.
[19] tan w, zhang l, fu f, bowman s, wang p*, li yy, zhang y*. the heavy metal adsorption and plant cultivation performance of grafting modified plant medium made with recycled fibers. journal of cleaner production, 2021, 329: 129788.
[20] he hz, zhang y, zhang wq, li yy, zhu x, wang p*, hu dm*. porous carbon nanofibers derived from silk fibroin through electrospinning as n-doped metal-free catalysts for hydrogen evolution reaction in acidic and alkaline solutions. acs applied materials & interfaces, 2022, 14(1): 834-849.
[21] zhang jw, zhang y, li yy, ye x, wang p*, xu yk*. a flexible pressure sensor based on pedot coated polyester nonwoven fabric for low-pressure range. smart materials and structures, 2022, 31(3): 035025.
[22] zhang jw, zhang y, li yy, wang p*. textile-based flexible pressure sensors: a review. polymer reviews, 2022, 62 (1): 65-94.
[23] song xy, fang cc, li yy, wang p, zhang y*, xu yk*. characterization of mechanical properties of jute/pla composites containing nano sio2 modified by coupling agents. cellulose, 2022, 29 (2): 835-848.
[24] ye x, li yy, zhang y, wang p* and hu dm*. a toilless quasi-superhydrophobic surface of round cake, microsphere and spindle with high contact angle and high adhesion. colloids and surfaces a: physicochemical and engineering aspects, 2022, 641: 128583.
[25] wang q, zhang y, liang cl, liao yc, wang p*, hu dm*. insights into detailed hierarchical puncture-resistance for b. mori silkworm cocoons. textile research journal, 2022, 92(5-6): 773-787.
[26] xu xt, zhang wq, li yy, wang p, zhang y*. synthesis of co3o4@tio2 catalysts for oxygen evolution and oxygen reduction reactions. microporous and mesoporous materials. 2022, 335: 111844.
[27] ye x, li yy, zhang y, wang p*. a comprehensive review: recent developments of biomimetic sensors. journal of bionic engineering, 2022, 19(4): 853-876.
[28] fang cc, song xy, zou t, li yy, wang p, zhang y*. natural jute fiber treated with silane coupling agent kh570 reinforced polylactic acid (pla) composites: mechanical and thermal properties. textile research journal, 2022, 92(21-22): 4041-4050.
[29] song xy, zhang y, zou t, li yy, wang p*, hu dm*. the reinforcement and toughening of jute/pla (lactic acid) composite material with modified-rubber/sio2 core-shell particles. materials today sustainability, 2022, 19: 100198.
[30] zhang wq, xi rf, li yy, zhang y, wang p*, hu dm*. recent development of transition metal doped carbon materials derived from biomass for hydrogen evolution reaction. international journal of hydrogen energy, 2022, 47(76): 32436-32454.
[31] wang hy, xi rf, li yy, wang p, zhang y*. the thermal and light performance of triangular hollow porous polyacrylonitrile fibers reinforced by inorganic salt. colloids and surfaces a: physicochemical and engineering aspects, 2022, 653: 130033.
[32] zhang wq, xi rf, li yy, zhang y, wang p*, hu dm*. waste silk fabric derived n-doped carbon as a self-supported electrocatalyst for hydrogen evolution reaction. colloids and surfaces a: physicochemical and engineering aspects, 2023, 658: 130704.
[33] song xy, zou t, zhang y, li yy, wang p*. the mechanical properties of jute/pla composites combining nano polymerized styrene butadiene rubber modified by coupling agents. journal of natural fibers. 2023, 20(1): 2157921.
[34] he hz, zhang rq, zhang pc, wang p*, chen n*, qian bb, zhang l, yu jl, dai bq*. functional carbon from nature: biomass-derived carbon materials and the recent progress of their applications. advanced science, 2023, 2205557.
[35] xu xt, xi rf, li yy, wang p, zhang y*, hu dm*. preparation of cofe2o4 doped tio2 nanofibers by electrospinning and annealing for oxygen electrocatalysis. langmuir, 2023, 39(17): 6211-6221.
[36] hu jy, liang cl, zhang y, li yy, wang p*. preparation and characterization of flexible laminated composites impregnated by tpu/sio2 for static puncture resistance. international journal of occupational safety and ergonomics, 2023, 29(3): 998-1006.
[37] 廖银昌, 梁春玲, 张岩, 李媛媛, 王萍. 柔性防刺材料的研究与发展. 产业用纺织品, 2023, 41(02): 9-18.
[38] 伍悦玥, 吴铠, 王萍, 张岩. 芳纶平纹机织/非织造混杂结构复合材料低速冲击性能的有限元分析. 产业用纺织品, 2023, 41(06): 30-41.
[39] li yh, lyu zq, wang p, zhang y*, li cw, gu jx, hu dm* and li qw*. tensile properties of flexible carbon nanotube film/pva composite at various rates. polymer composites, 2023, 44: 6164–6177.
[40 ye x, li yy, zhang y, wang p* and hu dm*. superhydrophobic polyurethane membrane with biomimetically hierarchical structure for self-cleaning. acs applied materials & interfaces, doi: 10.1021/acsami.2c13208.
[41] fang cc, zou t, song xy, li yy, zhang y, wang p*. the single or combined treatment effect of jute surface modification on mechanical and thermomechanical properties of jute/pla laminated composites. mechanics of advanced materials and structures, doi: 10.1080/15376494.2022.2116758.
[42] li yh, lyu zq, wang p, zhang y*, li cw, gu jx, hu dm*, li qw*. tensile properties of flexible carbon nanotube film/pva composite at various strain rates. polymer composites. doi: 10.1002/pc.27554.
[43] zou t, ji ry, li yy, zhang y, wang p*. preparation and characterization of silk hybridizing carbon fiber/poly-butylene-succinate (pbs) composite. polymer composites. doi: 10.1002/pc.27653
授权专利
[1] 周平,祝章琛,王萍. 提花机开口机构. zl201310525725.8. 发明专利
[2] 周平,祝章琛,王萍. 一种带弹性结构的提花机用提综刀箱. zl201310525722.4. 发明专利
[3] 王菲菲,王萍,花梦琦,张岩,刘福娟,徐岚,何吉欢.一种具有抗撕裂性能的非织造复合材料及其制备方法. zl201710553083.0. 发明专利
[4] 王萍,何鸿喆,张岩,李媛媛,徐岚,刘福娟.用于析氢析氧反应的电催化剂材料及其制备方法、用途. zl202110505917.7. 发明专利
[5] 王萍,胡嘉赟,张岩,李媛媛.柔性抗静态穿刺材料的制备方法. zl202110127112.3. 发明专利
[6] 刘福娟,王萍,徐岚,何吉欢,张岩.一种功能化复合多孔材料的制备方法. zl201610300686.5. 发明专利
[7] 王萍,宋雪旸,张岩,李媛媛,徐岚,刘福娟. 改性纤维增强聚乳酸复合材料及其制备方法. zl202110428409.3. 发明专利.
[8] 王萍,许秋瑾,张岩,王成,檀伟,朱韻洁. 一种水生植物种植毯及其制备方法. zl201810586425.3. 发明专利.
[9] 王萍,叶旭,张岩,李媛媛,徐岚,刘福娟. 基于离子液体基的透明聚氨酯薄膜的制备方法. zl202210338860.0. 发明专利.
[10] 王萍,赵竹馨,张友林,张岩,刘福娟,徐岚,何吉欢.一种顶破装置. zl201621087517.x. 实用新型
[11] 王萍,赵竹馨,张友林,张岩,刘福娟,徐岚,何吉欢.一种夹具装置及顶破装置. zl201621087583.7. 实用新型
[12] 王菲菲,王萍,於亮,张岩,刘福娟,徐岚,何吉欢.防刺性能检测装置. zl201720718921.0. 实用新型
[13] 王菲菲,王萍,张岩.防割性能检测装置. zl201820335597.9. 实用新型
[14] 王倩,王萍,张岩.检测薄型纺织材料刺破性能的专用装置. zl201821740665.6. 实用新型
[15] 王倩,王萍,张岩.基于万能材料试验机的刺破性能检测装置. zl201821957539.6. 实用新型
[16] 王萍,宋雪旸,阮芳涛,张岩,李媛媛.一种复合材料的加工装置. zl202022047426.6. 实用新型
[17] 胡嘉赟,王萍.一种用于观察万能材料试验机刺破性能的探测装置. zl202120316689.4. 实用新型
[18] 胡嘉赟,王萍.一种仿蚕吐丝的纺丝装置. zl202120316687.5. 实用新型
[19] 胡嘉赟,王萍.基于蚕吐丝设计生成带皮双芯的纺丝装置. zl202120332064.7. 实用新型
[20] 王萍,胡嘉赟,张岩,李媛媛,徐岚,刘福娟.轧液装置. zl202120992018.x. 实用新型.
[21] 王萍,梁春玲,胡嘉赟,张岩,李媛媛,徐岚,刘福娟. 一种准静态穿刺测试用夹具. zl202221128969.3. 实用新型.
[22] 王萍,胡嘉赟,张岩,李媛媛,徐岚,刘福娟. 轧辊调节用的调节机构以及试验用的小轧车. zl202221038848.x.实用新型.
国际交流与合作
曾赴university of california, davis大学交流访问一年。
其他信息
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