华南理工大学化学与化工学院王素清

liangxi · 发表于 2018-5-19 17:35:06

王素清

博士/研究员
广东省杰青、广东特支计划青年拔尖人才

华南理工大学化学与化工学院

地址：广东省广州市天河区五山路381号16号楼322B室
邮编：510640
Email：cesqwang@scut.edu.cn

教育背景

2005 - 2010 博士学位、材料学（硕博连读）

中国科学技术大学

2001 - 2005 学士学位材料化学

中国科学技术大学

工作经历

2017.9至今

研究员，硕导华南理工大学化学与化工学院

2013. 9-2017.8

副研究员，硕导华南理工大学化学与化工学院

2016. 3-2017. 3

访问学者，澳大利亚伍伦贡大学，超导电子与材料研究所（ISEM）

2012. 4-2013. 8

助理研究员，华南理工大学化学与化工学院

2010. 6 - 2012. 3

助理研究员，中国科学院广州能源研究所

奖励与荣誉

2017 广东省杰出青年基金

2016 广东特支计划百千万人才工程青年拔尖人才

2016 广州市珠江科技新星

2015 广东省高等学校“千百十工程” 校级培养对象

2010 中国科学技术大学校优秀毕业生

研究兴趣

新能源材料与器件，储能电池

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科研项目：

国家自然科学基金面上项目，21776098，高效离子筛分修饰纳米纤维隔膜的构筑及其在锂硫电池中的应用基础，2018.01-2021.12，76.4万，在研，主持

国家自然科学基金面上项目，21576100，自支撑碳基柔性电极的构筑、调控及其在储能器件中的应用基础，2016.01-2019.12，77.5万，在研，主持

广东省杰出青年基金，2017A030306022，高性能柔性纳米纤维复合电极的设计及其在锂/钠离子电池中的应用基础，2017.05-2021.05，100 万，在研，主持

国家自然科学基金重点项目，21536005，混合导体透氢膜性能调控及膜反应器应用基础研究，2016.01-2020.12，358万，在研，参加

国家重点研发计划（纳米专项），2016YFA0202603，高效纳米储能材料与器件的基础研究，2016-2021， 2995万元，在研，课题骨干

国家自然科学基金青年科学基金，21306057，三维多孔结构钒氧化物复合材料的设计合成及电化学性能研究，2014.01-2016.12，25万，结题，主持

广东省自然科学基金博士启动，S2012010007495，纳米尺度碳复合的多孔V2O5/C电极材料的储锂性能研究，2012.10-2014.10，结题，主持

教育部博士点基金新教师课题, 20120172120011, 表面保护-刻蚀调控V2O5微结构及其电化学性能研究,2013.01-2015.12, 结题，主持

华南理工大学中央高校基本科研业务费重点项目，2017.1-2018.12，15 万，在研，主持

华南理工大学中央高校基本科研业务费重点项目，2015.1-2016.12，20 万，结题优秀，主持

华南理工大学中央高校基本科研业务费面上项目，2013.1-2014.12，10万，结题，主持

学术期刊论文：

2018

[50] G. P. Chen, X. Song, S. Q.Wang*, Y. Wang, T. Gao, L. X. Ding, H. H. Wang*, A multifunctionalseparator modified with cobalt and nitrogen co-doped porous carbon nanofibersfor Li-S batteries, J. Membr. Sci., 2018, 548, 247-253.

[49] X. Song, S. Q. Wang*, G.P. Chen, T. Gao, Y. Bao, L. X. Ding, H. H. Wang, Fe-N-doped carbon nanofiberand graphene modified separator for lithium-sulfur batteries, Chem. Eng. J.,2018, 333,564-571.

[48] L. Ding#, Y.Y. Wei#, L. B. Li, T.Zhang, H. H. Wang*, J. Xue, L. X. Ding, S. Q. Wang, J. Caro, Y.Gogotsi*, MXene molecular sieving membranes for highly efficient gasseparation, Nature Commun., 2018, 9, 155

[47] X. Z. Chen, S. Q. Wang, H.H. Wang*, High performance hybrid Mg-Li ion batteries with conversion cathodesfor low cost energy storage, Electrochim. Acta, 2018, 265, 175-183.

2017

[46] Y. Wang, S. Q. Wang*,J. Q. Fang, L.X. Ding, H. H. Wang*, A nano-silica modified polyimide nanofiberseparator with enhanced thermal and wetting properties for high safetylithium-ion batteries, J. Membr. Sci., 2017, 537, 248-254.

[45] X. Song, S. Q. Wang*,Y. Bao, G. X. Liu, W. P. Sun*, L. X. Ding, H. K. Liu, H. H. Wang*, A highstrength, free-standing cathode constructed by regulating graphitizationand the pore structure in nitrogen-doped carbon nanofibers for flexiblelithium-sulfur batteries, J. Mater. Chem. A, 2017, 5, 6832-6839

[44] X. Song, T. Gao, S. Q.Wang*, Y. Bao, G. P. Chen, L. X. Ding, H. H. Wang*, Free-standingsulfur host based on titanium-dioxide-modified porous carbon nanofibers forlithium-sulfur batteries, J. Power Sources, 2017, 356, 172-180

[43] G. X. Liu, L. Zhang*, S.Q. Wang, H. H. Wang*, Hierarchical NiCo2O4 nanosheets on carbonnanofiber films for high energy density and long-life Li-O-2batteries, J. Mater. Chem. A, 2017, 5, 14530-14536

[42] K. Xiao, Y. H. Zeng, J. Long, H.B. Chen, L. X. Ding*, S. Q. Wang, H. H. Wang*, Highly CompressibleNitrogen-Doped Carbon Foam Electrode with Excellent Rate Capability via aSmart Etching and Catalytic Process, ACS Appl.Mater. Inter., 2017, 9, 15477-15483

[41] L. L. Zhang, L. X. Ding*, H. B.Chen, D. D. Li, S. Q. Wang, H. H. Wang*,Self-Supported PtAuP Alloy Nanotube Arrays with Enhanced Activity andStability for Methanol Electro-Oxidation, Small, 2017, 13, UNSP 1604000

2016

[40] H. B. Chen, L.-X. Ding*, K. Xiao,S. Dai, S. Q. Wang, Haihui Wang*,Highly ordered ZnMnO3nanotube arrays from a “self-sacrificial” ZnO template as high-performanceelectrodes for lithium ion batteries, J. Mater. Chem. A, 2016, 4.16318-16323.

[39] D. D. Li, L. Zhang,L.-X. Ding*, S. Q. Wang, Haihui Wang*,Graphene-basedNitrogen-doped Carbon Sandwich Nanosheets: NewCapacitive Process Controlled Anode Material for High-performanceSodium-ion Batteries, J. Mater. Chem. A, 2016, 4. 8630-8635.

[38] L. Zhan, H. B. Chen, J. Q. Fang, S.Q. Wang*,L. X. Ding, Z. Li, P. J. Ashman, H. H. Wang*,CoaxialCo3O4@polypyrrole core-shell nanowire arrays for high performance lithium ionbatteries, Electrochim. Acta, 2016,209, 192-200.

[37] W. J. Ye, X. Y. Li, H. L. Zhu, X. Y.Wang*, S. Q. Wang*, H. H. Wang,R. C. Sun, Green Fabrication ofCellulose/Graphene Composite in Ionic Liquid and Its Electrochemical andPhotothermal Properties, Chem. Eng. J., 2016, 299, 45-55.

[36] K. Xiao, L. X. Ding*, G. X. Liu, H. B.Chen, S. Q. Wang, H. H. Wang*,Free-standing, HydrophilicNitrogen-Doped Carbon Foam for Highly Compressible All Solid-StateSupercapacitors, Adv. Mater., 2016, 28, 5997.

[35] M. Guo, H. B. Chen, S. Q. Wang*,S. Dai, L.-X. Ding, H. H. Wang*, TiN-coated micron-sized tantalum-dopedLi4Ti5O12 with enhanced anodic performance for lithium-ion batteries, J. Alloy.Compd. 2016, 687, 746-753.

[34] D. D. Li, L. Zhang, L.-X. Ding*, S.Q. Wang, Haihui Wang*, Graphene-basedNitrogen-doped Carbon SandwichNanosheets: New Capacitive Process Controlled Anode Material forHigh-performance Sodium-ion Batteries, J. Mater. Chem. A, 2016, 4. 8630-8635.

[33] L Xia#, S. Q. Wang#,G. X. Liu, L. Ding, D. D. Li, H. H. Wang*, S. Z. Qiao*, FlexibleSnO2/N-Doped Carbon Nanofiber Films as Integrated Electrodes for Lithium-IonBatteries with Superior Rate Capacity and Long Cycle Life, Small,2016, 12, 853-859. (ESI High Cited Paper)

[32] S. Q. Wang#, L. Xia#, L.Yu#, L. Zhang, H. H. Wang*, X. W. Lou*, Free-Standing Nitrogen-Doped CarbonNanofiber Films: Integrated Electrodes for Sodium-Ion Batteries with UltralongCycle Life and Superior Rate Capability，Adv. EnergyMater., 2016, 6, 1502217. (selected as FrontispiecePaper)

[31] J. Q. Fang, S. Q. Wang*,Z. T. Li, H. B. Chen, L. Xia, L. X. Ding, H. H. Wang*, Porous Na3V2(PO4)3@Cnanoparticles enwrapped in three-dimensional graphene for high performancesodium-ion batteries, J. Mater. Chem. A, 2016, 4, 1180-1185. (Hotpaper, ESI High Cited Paper)

[30] D. D. Cai, D. D. Li, L. X.Ding*, S. Q. Wang, Haihui Wang*, Interconnected a-Fe2O3nanosheet arrays as high-performance anode materialsfor lithium-ionbatteries, Electrochim. Acta, 2016, 192, 407-413.

[29] K. Xiao, L. X. Ding*, H. B.Chen, S. Q. Wang, X. H.Lu, H. H. Wang*, Nitrogen-doped porouscarbon derived from residuary shaddock peel: a promising and sustainable anodefor high energy density asymmetric supercapacitors，J. Mater.Chem. A, 2016, 4, 372-378. (ESI High Cited Paper)

2015

[28] G. X. Liu, H. B. Chen, L. Xia, S.Q. Wang*, L. X. Ding, D. D. Li, K. Xiao, S. Dai, H. H. Wang*, HierarchicalMesoporous/Macroporous Perovskite La0.5Sr0.5CoO3-x Nanotubes: A BifunctionalCatalyst with Enhanced Activity and Cycle Stability for Rechargeable Lithium OxygenBatteries, ACS Appl. Mater. Interf., 2015, 7, 22478-22486.

[27] L. Zhan，S. Q. Wang*，L. X. Ding，Z. Li，H. H. Wang*, Binder-free Co-CoOx nanowire arrays for lithium ionbatteries with excellent rate capability and ultra-long cycle life, J.Mater. Chem. A，2015, 3, 19711-19717. (Cover Paper)

[26] M. Guo，S. Q. Wang*，L. X. Ding，L. Zheng，H. H. Wang*, Synthesis of novel nitrogen-doped lithium titanate withultra-high ratecapability using melamine as a solid nitrogen source, J.Mater. Chem. A, 2015, 3, 10753-10759. (Inside Back Cover Paper)

[25] Z. T. Li，G. X. Liu，M. Guo，L. X. Ding，S. Q.Wang*，H. H. Wang*, Electrospun porous vanadium pentoxide nanotubes as ahigh-performance cathode material for lithium-ion batteries, Electrochim.Acta, 2015, 173, 131-138.

[24] M. Guo，S. Q. Wang*，L. X. Ding，C. S. Huang，H. H. Wang*, Tantalum-doped lithium titanate with enhancedperformance forlithium-ionbatteries, J. Power Sources, 2015, 283,372-380.

[23] L. L. Zhang, M. Wei, S. Q.Wang, Z. Li, L. X. Ding*, H. H. Wang*, Highly stable PtP alloy nanotubearrays as a catalyst for the oxygen reduction reaction in acidic medium, Chem.Sci., 2015, 6, 3211-3216.

[22] D. D. Li, H. B. Chen, G. X. Liu, M.Wei, L. X. Ding*, S. Q. Wang, H. H. Wang*, Porous nitrogen dopedcarbon sphere as high performance anode of sodium-ion battery, Carbon,2015, 94, 888-894.

[21] D. D. Li, L. Zhang, H. B. Chen, L. X.Ding*, S. Q. Wang, H. H. Wang*, Nitrogen-doped bamboo-like carbonnanotubes: promising anode materials for sodium-ion batteries, Chem.Commun., 2015, 51, 16045-16048.

[20] K. Xiao, L. Xia, G. X. Liu, S.Q. Wang, L. X. Ding*, H. H. Wang*, Honeycomb-like NiMoO4 ultrathinnanosheet arrays forhigh-performance electrochemical energy storage, J.Mater. Chem. A, 2015, 3, 6128-6135.

2014

[19] D.D. Cai, S. Q. Wang*,L.X. Ding, P.C. Lian, S.Q. Zhang, F. Peng, H.H. Wang*, Superior cycle stabilityof graphene nanosheets prepared by freeze-drying process as anodes forlithium-ion batteries, J. Power Source, 2014, 254, 198.

[18] J.J. Chen, S. Q. Wang*,L.X. Ding, Y.B. Jiang, H.H. Wang*, Performance of through-hole anodic aluminumoxide membrane as a separator for lithium-ion battery. J. Membr. Sci.,2014, 461, 22.

[17] L. Zhan, S. Q. Wang*, L.X.Ding, Z. Li, H.H. Wang*, Grass-like Co3O4 nanowirearrays anode with high rate capability and excellent cycling stability forlithium-ion batteries, Electrochim. Acta, 2014, 135, 35.

[16] J. J. Chen, S. Q. Wang, D.D. Cai, H. H. Wang*, Porous SiO2 as a separator to improve theelectrochemical performance of spinel LiMn2O4 cathode, J. Membr. Sci.,2014, 449, 169.

[15] D. D. Li, L. X. Ding*, S. Q.Wang, D. D. Cai, H. H. Wang*, Ultrathin and highly-ordered CoO nanosheetarrays for lithium-ion batteries with high cycle stability and rate capability, J.Mater. Chem. A, 2014, 2, 5625.

[14] D. D. Cai, L. X. Ding*, S. Q.Wang, Z. Li, M. Zhu, H. H. Wang*, Facile synthesis of ultrathin-shellgraphene hollow spheres for high-performance lithium-ion batteries, Electrochim.Acta, 2014, 139, 96.

[13] D. D. Li, L. X. Ding*, H. B.Chen, S. Q. Wang, Z. Li, M. Zhu, H. H. Wang*, Novel nitrogen-richporous carbon spheres as a high-performance anode material for lithium-ionbatteries, J. Mater. Chem. A, 2014, 2, 16617.

2013

[12]S. Q. Wang, J.L. Wang, H. Luo,X.Y. Zhao, L.Z. Zhang*, A novel aminoalkylsilane compound with oligo(ethyleneoxide) units as effective additive for improving cyclability of lithium-ionbatteries, J. Mater. Sci. Technol., 2013, 29, 943.

[11] D. D. Cai, S. Q. Wang, P.C. Lian, X. F. Zhu, D. D. Li, W. S. Yang, H. H. Wang*, Superhigh capacity andrate capability of high-level nitrogen-doped graphene sheets as anode materialsfor lithium-ion batteries, Electrochim. Acta, 2013, 90, 492.

[10] L. Zhang, S. Q. Wang, D.D. Cai, P. C. Lian, X. F. Zhu, W. S. Yang, H. H. Wang*, Li3V2(PO4)3@C/graphenecomposite with improved cycling performance as cathode material for lithium-ionbatteries, Electrochim. Acta, 2013, 91, 108.

[9] D. D. Cai, D. D. Li, S. Q. Wang,X. F. Zhu, W. S. Yang, S. Q. Zhang, H. H. Wang*, High rate capability ofTiO2/nitrogen-doped graphene nanocomposite as an anode material for lithium-ionbatteries, J. Alloys Compd., 2013, 561, 54.

[8] Y. Sun, L. C. Zhang, S. Q. Wang,L. Ingo, Y. Yu, C. H. Chen*, Walnut-like vanadium oxide film with high rateperformance as a cathode material for rechargeable lithium batteries, J.Power Sources, 2013, 228, 7.

[7] X. L. Zhao, D. P. Tang, Y. J. Mai, X.Y. Zhao, S. Q. Wang, L. Z. Zhang, Characterization of Li-RichCathode Material Li[Li0.2Ni0.2Mn0.6]O-2 Synthesized by Sol-Gel Method forLithium-Ion Batteries, Chinese Journal of Inorganic Chemistry,2013, 29, 1013.

2012 and before

[6] L. Yue, S. Q. Wang, X. Y.Zhao, L. Z. Zhang*, Nano-silicon composites usingpoly(3,4-ethylenedioxythiophene):poly (styrenesulfonate) as elastic polymermatrix and carbon source for lithium-ion battery anode, J. Mater. Chem.,2012, 22, 1094.

[5] S. Q. Wang, S.R. Li, Y.Sun, X.Y. Feng, C.H. Chen*, Three-dimensional porous V2O5 cathode with ultrahigh rate capability, Energy Environ. Sci., 2011, 4,2854.(IF=25.43)

[4] S. Q. Wang, Z.D. Lu, D.Wang, C.G. Li, C.H. Chen*, Y.D. Yin*, Porous monodisperse V2O5 microspheres ascathode materials for lithium-ion batteries, J. Mater. Chem., 2011,21, 6365.

[3] S. Q. Wang, J.Y. Zhang,C.H. Chen*, Fe3O4 submicron spheroids as anode materials for lithium-ionbatteries with stable and high electrochemical performance, J. PowerSources, 2010, 195, 5379.(ESI High Cited Paper)

[2] S. Q. Wang, J.Y. Zhang, N.Ding, C.H. Chen*, Synthesis of nanobelt-tangled spheroids of copper (II) oxideat room temperature and their application for lithium-ion batteries, ScriptaMater., 2009, 60, 1117-1120.

[1] S. Q. Wang, J.Y. Zhang,C.H. Chen*, Dandelion-like hollow microspheres of CuO as anode material forlithium-ion batteries, Scripta Mater., 2007, 57, 337-340.

专利：

1.王素清，方峻祺，王海辉，卫孟，一种利用冷冻干燥法制备的碳包覆金属离子掺杂的磷酸钒钠复合正极材料及其制备方法与应用，中国发明专利，201610617682.X

2. 王海辉，栗志同，王素清，一种多孔碳纳米纤维的制备方法，中国发明专利，201510176445.X

3. 王海辉，郭敏，王素清，一种高性能共掺杂钛酸锂电极材料的制备方法，中国发明专利，201510971408.8

4. 王海辉，李东东，王素清，一种正负极可独立调节的新型锂空气电池模具，授权发明专利，CN201320199103.6

5. 王海辉，李东东，王素清，一种正负极可独立调节的新型锂空气电池模具，授权实用新型，CN201310136753.0

6. 王海辉，蔡丹丹，王素清，一种氮硫共掺杂石墨烯的制备方法，授权发明专利，CN201310073047.6

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[专家学者] 华南理工大学化学与化工学院王素清