- 学历/学位: 工学博士学位
- 研究方向:
高分子设计合成及其在电磁吸波、无机非金属陶瓷前驱体、新能源材料中的应用
- 邮箱: cxwu@ipe.ac.cn
- 地址: 北京市海淀区中关村北二街1号
- 邮编: 100190
- 课题组网站:
简历介绍
武春晓,中国科学院过程工程研究所,“相关人才计划”副研究员,硕士生导师。博士毕业于北京航空航天大学,获材料物理与化学工学博士学位;2017-2018年,“优秀博士生基金”资助在美国圣路易斯华盛顿大学进行交流访问,合作导师vijay k. ramani教授;2019年,在美国加州大学圣克鲁兹进行博士后研究工作,主要从事高分子合成及在能源材料、离子传感器及电子器件中的应用工作,合作导师marco rolandi教授;2023年,获中国科学院过程工程研究所“相关人才计划”人才项目,开展高分子设计合成及其在电磁吸波材料、陶瓷前驱体、新能源材料中的应用。承担主持中科院人才项目、国家自然科学基金青年基金、北京市级项目、北京市青年托举人才项目、企业横向;作为主要完成人参与美国国防高级研究计划局(darpa)项目,及多项国家、省部级科研项目;申请国家发明专利2项;担任progress in natural science: material international、applied research期刊青年编委;以第一作者在small、advanced intelligent systems、j. power sources、j. mater. chem. a等国际权威期刊发表论文十余篇,论文被引用500余次。曾获得“北京航空航天大学优秀博士学位论文奖”“十佳论文奖”等荣誉。
代表论著
1. chunxiao wu, shanfu lu, haining wang, sian chen, yan xiang*. endowing nonionic membrane with superior ionicselectivity by using g-c3n4 for redox flow battery. journal of power source, 564, 232857 (2023).
2. chunxiao wu, john selberg, brian nguyen, pattawong pansodtee, manping jia, harika dechiraju, mirceateodorescu, marco rolandi*. a microfluidic ion sensor array. small, 16, 1906436 (2020).
3. john selberg, mohammad jafari, juanita mathews, manping jia, pattawong pansodtee, harika dechiraju, chunxiao wu, sergio cordero, alexander flora, nebyu yonas, sophia jannetty, miranda diberardinis, mircea teodorescu, michael levin*, marcella gomez, marco rolandi*. machine learning-driven bioelectronics for closed- loop control of cells. advanced intelligent systems, 2, 2000140 (2020).
4. manping jia, harika dechiruji, john selberg, pattawong pansodtee, juanita mathews, chunxiao wu, michael levin, mircea teodorescu, marco rolandi*. bioelectronic control of chloride ions and concentration with ag/agcl contacts. apl materials, 8, 091106 (2020).
5. chunxiao wu, jin zhang, shanfu lu, yan xiang and san ping jiang*. acid pretreatment to enhance proton transport of a polysulfone-polyvinylpyrrolidone membrane for application in vanadium redox flow batteries. chem plus chem, 83, 909-914 (2018).
6. chunxiao wu, shanfu lu, jin zhang, yan xiang. inducing microstructural changes in nafion by incorporating graphitic carbon nitride to enhance the vanadium-blocking effect. physical chemistry chemical physics, 20, 7694 (2018).
7. huijuan bai, haining wang, jin zhang, chunxiao wu, jujia zhang, yan xiang*, shanfu lu*. simultaneously enhancing ionic conduction and mechanical strength of poly(ether sulfones)-poly(vinyl pyrrolidone) membrane by introducing graphitic carbon nitride nanosheets for high temperature proton exchange membrane fuel cell application. journal of membrane science, 558, 26-33 (2018).
8. chunxiao wu, huijuan bai, shanfu lu, yang lv, zhaoqian lv, yan xiang*. enhanced membrane ion selectivity by incorporating graphene oxide nanosheet for vanadium redox flow battery application. electrochimica acta, 248, 454 (2017).
9. qinglong tan, shanfu lu, jiangju si, haining wang, chunxiao wu, xianfeng li, yan xiang*. a bunch-like tertiaryamine grafted polysulfone membrane for vrfbs with simultaneously high proton conductivity and low vanadium ion permeability. macromolecular rapid communications, 38, 1600710 (2017).
10. yang lv, jin zhang, zhaoqian lv, chunxiao wu, yiyang liu, haining wang, shanfu lu, yan xiang*. enhanced electrochemical activity of carbon felt for v2 /v3 redox reaction via combining koh-etched pretreatment with uniform deposition of bi nanoparticles. electrochimica acta, 253, 78-84 (2017).
11. chunxiao wu, shanfu lu, haining wang, xin xu, sikan peng, qinglong tan and yan xiang*. a novel polysulfone-polyvinylpyrrolidone membrane with superior proton-to-vanadium ion selectivity for vanadium redox flow batteries. journal of material chemistry a, 4, 1174 (2016).
12. chunmei yang, haining wang, shanfu lu, chunxiao wu, yiyang liu, qinglong tan, dawei liang, yan xiang*. itanium nitride as an electrocatalyst for v(ii)/v(iii) redox couples in all-vanadium redox flow batteries.electrochimica acta,10, 182 (2015).
13. qinglong tan, haining wang, shanfu lu, dawei liang, chunxiao wu, yan xiang* effects of surfacemodification modes on proton-over-vanadium ion selectivity of nafion membrane for application in vanadiumredox flow battery. journal of electrochemistry, 23, 409 (2015).
14. chunxiao wu, shanfu lu* dawei liang, qianglong tan, yan xiang* layer-by-layer self assembly of nafion-[cs-pwa] composite membranes with suppressed vanadium ion crossover for vanadium redox flow batteryapplications. rsc advances, 4, 24831 (2014).