吴松平_华南理工大学吴松平导师简历

吴松平

姓名	吴松平
性别	男
学校	华南理工大学
部门	化学与化工学院
学位	副教授
学历	副教授
职称	副教授
联系方式	Room 219, building 15, No.381
邮箱	chwsp@scut.edu.cn

集群智慧云企服 / 知识产权申请大平台微信客服在线：543646 急速申请包写包过办事快、准、稳软件产品登记测试软件著作权666元代写全部资料实用新型专利1875代写全部资料

更新日期：2021年9月25日姓名吴松平性别男出生年月 1968年2月籍贯安徽肥东县民族汉族政治面貌中国共产党党员最后学历博士研究生最后学位哲学博士技术职称副教授导师类别硕导行政职务 Email chwsp@scut.edu.cn 工作单位化学与化工学院邮政编码 510641 通讯地址 Room 219, building 15, No.381 单位电话 02087112897 个人主页 https://www.researchgate.net/profile/Songping_W2 个人简介 1992.9 - 1995.7，硕士研究生就读于广东工业大学应用化学系，获硕士学位；1999.9 - 2002.7，博士研究生就读于华南理工大学化工学院，获博士学位；2002.7 - 2004.12，博士后进站于华南理工大学材料学院；2004.12 - 今，华南理工大学化学与化工学院，其中2005.6—2006.1 作为研究助理在香港理工大学从事国际合作科技项目的研究工作。2013.7-2014.7作为访问学者在佐治亚理工学院开展研究工作。工作经历 2002.7 - 2004.12，博士后进站于华南理工大学材料学院；2004.12 - 今，华南理工大学化学与化工学院，其中2005.6—2006.1 作为研究助理在香港理工大学从事国际合作科技项目的研究工作。2013.7-2014.7作为访问学者在佐治亚理工学院开展研究工作。教育经历 1992.9 - 1995.7，硕士研究生就读于广东工业大学应用化学系，获硕士学位；1999.9 - 2002.7，博士研究生就读于华南理工大学化工学院，获博士学位；获奖、荣誉称号广东省2012年科技进步奖二等奖一项;发表SCI（E）论文100余篇。据Google Scholar统计，总的引用次数2900 余次，H-index =30；据 SCI统计，总的引用次数2200余次，H-index =28。以通讯作者身份在Angewandte Chemie-International Edition, Advanced Energy Materials （封底论文）, Nano Energy, Small, Nanoscale, Carbon, Langmuir, Journal of Materials Chemistry C, Journal of the American Ceramic Society, ACS applied materials & interface, Chemelectrochem (VIP, 封底论文)，Journal of Materials Chemistry A（热点论文）, Industrial & Engineering Chemistry Research, Chemical Engineering Journal 等国际著名学术期刊上发表文章多篇。社会、学会及学术兼职中国化学会会员，承担多个国际主流期刊的评阅人。研究领域单分散功能化纳米晶的环境友好合成策略; 能源储存材料与转换材料；多铁性陶瓷纳米材料；纳米印刷材料（非接触式、接触式）；先进功能陶瓷材料等。科研项目近五年来：1) 国家科技部国家重点研发计划（2018YFF0215500），“跨境可再生资源工业产品质量评估预测技术研究”、2018. 07 ~ 2021.06、122 万元，子课题主持人。2) 广东省科技厅前沿与关键技术创新项目(No. 2014B010123001)，电动汽车动力电池用硅碳负极材料相适应性电解液的开发与产业化研究、2015.1~ 2017.12、500万元，（华南理工大学经费额：100 万元）、主持人。3) 广东省科技发展专项资金（协同创新与平台环境建设方向）(No. 2016B050502004), 高性能铁酸锰/石墨烯负极材料的制备及在锂离子电池上的应用、2016.7~ 2018.3、100 万元, 主持人。4) 广州市科创委产学研协同创新重大专项产学研项目（No. 2016201604030013），高性能硅/碳负极材料的制备及在锂离子电池上的应用、2016.4~ 2018.3、100 万元、主持人。5) 佛山市科技创新项目（2016AG100522），环保节能动力锂电池材料研发科研基础创新平台建设，2016.6~ 2018.5、50 万元，（华南理工大学经费额：25 万元）、主持人。发表论文代表性论文（近五年）：评论与观点：1) Songping Wu*（吴松平）, Cuiping Han, James Iocozzia, Mingjia Lu, Rongyun Ge, Rui Xu, Zhiqun Lin*, Germanium‐Based Nanomaterials for Rechargeable Batteries, Angewandte Chemie-International Edition 2016, 55, 7898-7922 ( IF= 12.257) （锂离子电池）2) S. Wu*（吴松平）, R. Xu, M. Lu, R. Ge, J. Iocozzia, C. Han, B. Jiang, and Z. Lin,* Graphene-Containing Nanomaterials for Lithium Ion Battery, Advanced Energy Materials，2015，5，1500400 （IF= 24.88） (Back Cover) （锂离子电池）3) Songping Wu*, Rongyun Ge, Mingjia Lu, Rui Xu, Zhen Zhang, Graphene-based nano-materials for lithium–sulfur battery and sodium-ion battery, Nano energy 15(2015)379-405 （IF=15.55）（钠离子与锂硫电池）4) C Lin, Y Wang, F Zhong, H Yu, Y Yan*, S Wu*，Carbon Materials for High-Performance Potassium-Ion Energy-Storage Devices，Chemical Engineering Journal 2021,407 (1), 126991（钾离子电池）5) F Zhong, Y Wang, G Li, C Huang, A Xu, C Lin, Z Xu, Y Yan, S Wu, Beyond-carbon materials for potassium ion energy-storage devices, Renewable and Sustainable Energy Reviews 2021,146, 111161（钾离子电池）6) Shuijing Sun, Chan Liao, Ahmed M. Hafezc, Hongli Zhu,⁎ Songping Wu*（吴松平），Two-dimensional MXenes for energy storage, Chemical Engineering Journal, 2018, 15, 27-45 （IF= 8.355）（二维材料）7) Songping Wu*（吴松平）, Yao Du, Shuijing Sun, Transition metal dichalcogenide based nanomaterials for rechargeable batteries，Chemical Engineering Journal, 2017, 307, 189-207 （IF= 8.355）（过渡金属硫化物）硅碳材料：1) Chan Liaoa,b, Songping Wua,b,⁎ Pseudocapacitance behavior on Fe3O4-pillared SiOx microsphere wrapped by graphene as high performance anodes for lithium-ion batteries, Chemical Engineering Journal 355 (2019) 805–814 （IF= 8.355）2) LiLi Fu, Anding Xu, Yang Song, Jiahao Ju, Hao Sun, Yurong Yan, Songping Wu, Pinecone-like Silicon@Carbon Microspheres Covered by Al2O3 Nano-petals for Lithium-ion Battery Anode under High Temperature, Electrochimica Acta 2021, 387, 1384613) Chun Liu, Qi Xia, Chan Liao, Songping Wu*, Pseudocapacitance Contribution to Three-dimensional Micro-sized Silicon@ Fe3O4@ Few-layered graphene for High-rate and Long-life Lithium ion Batteries, Materials Today Communications, 2019, 18, 66-73 （IF= 1.859）4) Qi Xia, Anding Xu, Li Du, Yurong Yan, Songping Wu, High-rate, long-term performance of LTO-pillared silicon/carbon composites for lithium-ion batteries anode under high temperature, Journal of Alloys and Compounds, 2019, 800, 50-575) Qi Xia, Anding Xu, Chuyun Huang, Yurong Yan,*and Songping Wu*，Porous Si@SiOx @N-Rich Carbon Nanofibers as Anode in Lithium-Ion Batteries under High Temperature，ChemElectroChem 2019, 6, 4402–4410 6) 吴松平，廖婵，刘淳，孙水晶，田小东，黄明保，杜瑶，一种一氧化硅石墨烯复合纳米材料及其制备方法与在锂离子电池中的应用，ZL 201710620310.7，发明专利，（授权2020-04-07）7) 吴松平，刘淳，田小东，黄明保，廖婵，孙水晶，一种石墨烯和四氧化三铁双重包覆纳米硅复合材料及其制备方法与在锂离子电池中的应用，ZL 201710625760.5，发明专利，（授权2020-05-22）8) 吴松平，夏琪，刘淳，廖婵，杜丽，一种具有核壳结构的高性能硅碳复合材料及其制备方法与在锂离子电池中的应用，CN 201810379754，发明专利9) 吴松平，夏琪，严玉蓉，续安鼎，张申魁，陈焯文，黄楚云，一种含纳米硅的多空碳纳米管柔性电池材料及其制备方法，CN 201811325468.2，发明专利10) 吴松平，付丽丽，宋杨，孙浩，琚家豪，徐鑫，王绎君，由二维硅纳米片自组装的硅碳微球复合材料及制备方法与其在锂离子电池负极材料中的应用 CN202010747593.3 发明专利碳中和：1. 吴松平，余慧玲，严玉蓉，琚家豪，黄楚云，张瑞秋，孙浩，刘卫霞，废铜线使用寿命的多维度评估方法，CN 202010256852.2，发明专利2. 吴松平，付丽丽，宋杨，孙浩，琚家豪，徐鑫，王绎君，由二维硅纳米片自组装的硅碳微球复合材料及制备方法与其在锂离子电池负极材料中的应用 CN202010747593.3 发明专利3. 严玉蓉,李桂兰,吴松平,曹泳琳,范淑颖, 一种环保的口罩及其回收再生的方法, CN2020104496815，发明专利4. 吴松平，廖婵，刘淳，孙水晶，田小东，黄明保，杜瑶，一种一氧化硅石墨烯复合纳米材料及其制备方法与在锂离子电池中的应用，ZL 201710620310.7，发明专利，（授权2020-04-07）5. 吴松平，夏琪，刘淳，廖婵，杜丽，一种具有核壳结构的高性能硅碳复合材料及其制备方法与在锂离子电池中的应用，CN 201810379754，发明专利6. 吴松平，夏琪，严玉蓉，续安鼎，张申魁，陈焯文，黄楚云，一种含纳米硅的多空碳纳米管柔性电池材料及其制备方法，CN 201811325468.2，发明专利7. 吴松平，付丽丽，宋杨，孙浩，琚家豪，徐鑫，王绎君，由二维硅纳米片自组装的硅碳微球复合材料及制备方法与其在锂离子电池负极材料中的应用 CN202010747593.3 发明专利8. Huiling Yu；Hao Sun；Weixia Liu； Ruiqiu Zhang； Yurong Yan*；Songping Wu*，A Multidimensional Evaluation Method for the Service Life of Scrapped Copper Wires， Advanced sustainable systems, 2021, 202100160. 9. Wei-Xia Liu,Chun-Li Wang,Jia-Mei Lei,Shu-Zhong Zhan* &Song-Ping Wu*, A nickel complex of 2,2-dicyanoethylene-1,1-dithiolate, a catalyst for electrochemical and photochemical driven hydrogen evolution, Inorganic and Nano-Metal Chemistry, 2021,10. Wei‐Xia Liu, Zhen‐Lang Xie, Chun‐Li Wang, Shu‐Zhong Zhan, Song‐Ping Wu, Effects of metal centers of complexes supported by S,S′-bis(2-pyridylmethyl)-1,2-thioethane on catalytic activities for electrochemical- and photochemical-driven hydrogen production, 2020, 34,9, e5776.11. Xie, Chun-Li Wang, Shu-Zhong Zhan, Song-Ping Wu*，Effects of metal centers of complexes supported by S, S′-bis (2-pyridylmethyl)-1, 2-thioethane on catalytic activities for electrochemical and photochemical driven hydrogen，Applied Organometallic Chemistry，2020，e577612. Wei-Xia Liu, Zhen-Lang Xie, Jun-Zheng Zhan, Shu-Zhong Zhan⁎, Song-Ping Wu，Synthesis, characterization, magnetic anisotropy and catalytic behaviors of a cobalt complex of S,S′-bis(2-pyridylmethyl)-1,2-thiobenzene，Inorganica Chimica Acta 503 (2020) 119400锂离子电池：1) LiLi Fu, Anding Xu, Yang Song, Jiahao Ju, Hao Sun, Yurong Yan, Songping Wu, Pinecone-like Silicon@Carbon Microspheres Covered by Al2O3 Nano-petals for Lithium-ion Battery Anode under High Temperature, Electrochimica Acta, 2021, 387, 1384612) Duan, Huanhuan; Zhang, Shenkui; Chen, Zhuowen; Xu, Anding; Zhan, Shu-Zhong; Wu, Song-Ping*a, Self-formed Channel Boosts Ultra-fast Lithium Ion Storage in Fe3O4@Nitrogen-doped Carbon Nanocapsule, ACS Applied Materials & Interfaces, 2020, 12, 527−5373) Xiaodong Tian, Li Du, Yurong Yan,* Songping Wu*, An Investigation into the Charge‐Storage Mechanism of MnO@Graphite as Anode for Lithium‐Ion Batteries at Low Temperature, Chemelectrochem, 2019, 6(8): 2248-2253 （IF= 3.975）4) Huanhuan Duan, Li Du, Shenkui Zhang, Zhuowen Chen and Songping Wu*（吴松平）, Superior lithium-storage properties derived from a high pseudocapacitance behavior for a peony-like holey Co3O4 anode, J. Mater. Chem. A, 2019, 7, 8327-8334 ( IF= 10.733)5) Chan Liaoa,b, Songping Wua,b,⁎ Pseudocapacitance behavior on Fe3O4-pillared SiOx microsphere wrapped by graphene as high performance anodes for lithium-ion batteries, Chemical Engineering Journal 355 (2019) 805–814 （IF= 8.355）6) Chun Liu, Qi Xia, Chan Liao, Songping Wu*, Pseudocapacitance Contribution to Three-dimensional Micro-sized Silicon@ Fe3O4@ Few-layered graphene for High-rate and Long-life Lithium ion Batteries, Materials Today Communications, 2019, 18, 66-73 （IF= 1.859）7) Qi Xia, Anding Xu, Li Du, Yurong Yan, Songping Wu, High-rate, long-term performance of LTO-pillared silicon/carbon composites for lithium-ion batteries anode under high temperature, Journal of Alloys and Compounds, 2019, 800, 50-578) Qi Xia, Anding Xu, Chuyun Huang, Yurong Yan,*and Songping Wu*，Porous Si@SiOx @N-Rich Carbon Nanofibers as Anode in Lithium-Ion Batteries under High Temperature，ChemElectroChem 2019, 6, 4402–4410 9) Mingbao Huang, Anding Xu, Huanhuan Duanab and Songping Wu*（吴松平），Enhanced pseudocapacitance contribution to outstanding Li-storage performance for a reduced graphene oxide-wrapped FeS composite anode，Journal of Materials Chemistry A，2018, 6, 7155 – 7161 ( IF= 10.733)10) Mingbao Huang, Cai-Hong Chen,* Songping Wu*（吴松平）and Xiaodong Tian, Remarkable High-temperature Li-storage Performance of Few-layer Graphene-anchored Fe3O4 Nanocomposites as Anode, Journal of Materials Chemistry A, 2017, 5, 23035-23042 ( IF= 10.733)11) Xiaodong Tian, Hongli Zhu,* Chan Jiang, Mingbao Huang, Songping Wu*（吴松平）, Resilient Energy Storage under High-Temperature with In-situ Synthesized MnOx@Graphene as Anode, ACS Applied Materials & Interfaces, 2017, 17, 9, 33896-33905 (IF= 8.456)12) Songping Wu*（吴松平）, Mingjia Lu, Xiaodong Tian, ｅｔａｌ．, A Facile Route to Graphene-Covered and Carbon-Encapsulated CoSO4 Nanoparticles as Anode Materials for Lithium-Ion Batteries, Chemical Engineering Journal, 2017, 313, 610-618（IF= 8.355）13) Mingjia Lu, Chan Liao, Chan Jiang, Yao Du, Zhen Zhang, Songping Wu*（吴松平）, Remarkable High-temperature Performance of Hollow Co9S8 Nanoparticles Integrated with Carbon Materials for Lithium-ion Batteries, Electrochimica Acta, 2017, 250, 196-202 (IF= 5.383)14) Y Du, S Wu*（吴松平）, M Huang, X Tian，Reduced graphene oxide-wrapped pyrite as anode materials for Li-ion batteries with enhanced long-term performance under harsh operational environments, Chemical Engineering Journal, 2017, 326, 257-264 （IF= 8.355）15) Yao Du, Chun Liu, Shuijing Sun, S Wu*（吴松平），Core-shell MnO@MnFe2O4 Anchored by Reduced Graphene Oxide as Anode of Li-Ion Batteries Operated under Ultrawide Temperature Range, Chemelectrochem, 2017, 13, 2500 –2506（IF= 3.975） (VIP，Inside Back Cover)16) S Wu*（吴松平）， R Ge, C Jiang, A facile, scalable route to reduced graphene oxide-encapsulated MnGeO3 microspheres as anode materials for lithium ion batteries, Journal of Alloys and Compounds, 2017, 711, 349-354 (IF= 4.175)17) R Ge, S Wu*（吴松平）, Y du, W Zhou, Z Zhang, Enhanced Li-storage performances of dually-protected CoGeO3 nanocomposites as anode materials for lithium ion batteries, Carbon 2016，107, 352-360 ( IF= 7.466)18) R Xu, SP Wu*（吴松平）, Y Du, Z Zhang, A facile route to dually protected Ge@GeO2 composites as anode materials for lithium ion battery, Chemical Engineering Journal, 2016, 296 (15), 349–355（IF= 8.355）19) S Wu*（吴松平）, R Wang, Z Wang, Z Lin, CuGeO3 Nanowires Covered with Graphene as Anode of Lithium Ion Batteries with Enhanced Reversible Capacity and Cyclic Performance, Nanoscale 6, 8350-8358, 2014. （IF= 6.97）钠离子电池：1) Anding Xu, Chuyun Huang, Guilan Li, Kaixiang Zou, Hao Sun, Lili Fu, Jiahao Ju, Yang Song, Songping Wu*, Zhiguang Xu *, Yurong Yan *, Sb2O3@Sb Nanoparticles Impregnated in N-doped Carbon Microcages for Ultralong Life and High-Rate Sodium Ion Battery, Journal of Materials Chemistry A 2021,9, 12169–12178 2) Zhuowen Chen, Huanhuan Duan, Zhiguang Xu, Caihong Chen*, Yurong Yan,* Songping Wu,* Fast Sodium Storage with Ultralong Cycle Life for Nitrogen Doped Hollow Carbon Nanofibers Anode at Elevated Temperature, Adv. Mater. Interfaces 2020, 7（9）19019223) Li Du,[a] Huanhuan Duan,[a] Qi Xia,[a] Chan Jiang,[b] Yurong Yan,*[c] and Songping Wu*[a]，Hybrid Charge-Storage Route to Nb2CTx MXene as Anode for Sodium-Ion Batteries，ChemistrySelect 2020, 5, 1186 –11924) Anding Xu, Qi Xia, Shenkui Zhang, Huanhuan Duan, Yurong Yan* b, Songping Wu* a, Ultra-High Rate Performance of Hollow Antimony Nanoparticles Impregnated in Open Carbon Boxes for Sodium-Ion Battery under Elevated Temperature, Small, 2019, 15, 1903521. （IF=10.8）5) Shuijing Sun, Zhenlang Xie, Yurong Yan,⁎ Songping Wu,⁎ Hybrid energy storage mechanisms for sulfur-decorated Ti3C2 MXene anode material for high-rate and long-life sodium-ion batteries, Chemical Engineering Journal, 366 (2019) 460–467（IF= 8.355）钾离子电池：1) Jiahao Ju, Anding Xu, Yang Song, Hao Sun, Lili Fu, Yurong Yan*, S Wu*, FeS2 Nanoparticles Encapsulated in N/S-Doped Hollow Carbon Spheres as Anode Materials for Potassium-Ion Batteries, ACS Appl. Nano Mater. 2021,4 (5), 4863–48712) Chuyun Huang, Anding Xu, Guilan Li, Hao Sun, Songping Wu*, Zhiguang Xu, Yurong Yan*, Alloyed BiSb Nanoparticles Confined in Tremella‐Like Carbon Microspheres for Ultralong‐Life Potassium Ion Batteries, Small, 2021,21006853) S Zhang, Z Xu, H Duan, A Xu, Q Xia, Y Yan, S Wu，N-doped carbon nanofibers with internal cross-linked multiple pores for both ultra-long cycling life and high capacity in highly durable K-ion battery anodes，Electrochimica Acta，2020，337，135767催化制氢：1) Wei-Xia Liu,Chun-Li Wang,Jia-Mei Lei,Shu-Zhong Zhan* &Song-Ping Wu*, A nickel complex of 2,2-dicyanoethylene-1,1-dithiolate, a catalyst for electrochemical and photochemical driven hydrogen evolution, Inorganic and Nano-Metal Chemistry, 2021,2) Wei‐Xia Liu, Zhen‐Lang Xie, Chun‐Li Wang, Shu‐Zhong Zhan, Song‐Ping Wu, Effects of metal centers of complexes supported by S,S′-bis(2-pyridylmethyl)-1,2-thioethane on catalytic activities for electrochemical- and photochemical-driven hydrogen production, 2020, 34,9, e5776.3) Xie, Chun-Li Wang, Shu-Zhong Zhan, Song-Ping Wu*，Effects of metal centers of complexes supported by S, S′-bis (2-pyridylmethyl)-1, 2-thioethane on catalytic activities for electrochemical and photochemical driven hydrogen，Applied Organometallic Chemistry，2020，e57764) Wei-Xia Liu, Zhen-Lang Xie, Jun-Zheng Zhan, Shu-Zhong Zhan⁎, Song-Ping Wu，Synthesis, characterization, magnetic anisotropy and catalytic behaviors of a cobalt complex of S,S′-bis(2-pyridylmethyl)-1,2-thiobenzene，Inorganica Chimica Acta 503 (2020) 119400功能纳米材料：1) Songping Wu, Yichao Lv, Mingjia Lu, Zhiqun Lin, A facile and environmentally friendly route to multiferroic nanorods and their size-dependent magnetic properties, Journal of Materials Chemistry C, 3 (13), 3121-3127, 2015. （IF= 6.641）2) S. Wu*（吴松平）, Z. Wang, X. Ouyang, and Z. Lin*, Core/Shell Zn2GeO4 Nanorods and Their Size-Dependent Photoluminescence Properties, Nanoscale, 5, 12335-12341, 2013. （IF= 6.97）3) W.S. Ni, S.P. Wu*（吴松平）, Q. Ren, Silanized TiO2 Nanoparticles and Their Application in Toner as Charge Control Agents: Preparation and Characterization [J], Chemical Engineering Journal, 214, 272–277, 2013. （IF= 8.355）高性能陶瓷4) Y Lv, S Wu*（吴松平），R Xu, Hydrothermal synthesis of HoMn2O5 nanorods and their size-dependent magnetic properties, Materials Chemistry and Physics, 2017, 189, 252-257( IF= 2.2)5) M Lu, X Ouyan, S Wu*（吴松平）, R Ge, R Xu, A facile hydrothermal route to self-assembled ZnGa2O4 particles and their microwave application, Applied Surface Science 2016，364 (28), 775–782 (IF = 5.155)6) X Ouyang, S Wu*（吴松平）, Z Wang, Y Liu, Synthesis and Microwave Dielectric Properties of 2ZnO 3B2 O3-doped ZnAl2O4 Low-Permittivity Ceramics, Journal of Alloys and Compounds, 644(2015) 242-248. (IF= 4.175)7) W Songping*（吴松平）, X Juanjuan, F Yingxian，Spinel Mg(Al, Ga)2O4 Solid Solution as High-Performance Microwave Dielectric Ceramics，Journal of the American Ceramic Society, 97 (11), 3555–3560, 2014 .（IF= 3.094）8) R Wang, S Wu*（吴松平）, Y Lv, Z Lin, Partially Crystalline Zn2GeO4 Nanorod/Graphene Composites as Anode Materials for High Performance Lithium Ion Batteries, Langmuir 30 (27), pp 8215–8220, 2014. IF=3.6839) S Wu*（吴松平）, J Xue, R Wang, J Li, Synthesis, Characterization and Microwave Dielectric Properties of Spinel MgGa2O4 Ceramic Materials, Journal of Alloys and Compounds 585 (5), 542–548, 2014. (IF= 4.175)10) S Wu*（吴松平）, Y Mei, Hydrothermal synthesis of DyMn2O5 nanorods and their magnetic properties, Journal of Alloys and Compounds 583 (15), 309–3, 2014. (IF= 4.175)11) Q Ma, S Wu*（吴松平）, Y Fan, Synthesis and microwave dielectric properties of Zn2SnO4 ceramics, Ceramics International 40 (1，part A), 1073–1080, 2014. （IF= 3.45）12) S Wu*（吴松平）, Q Ma, F He, High Conductivity Electrolyte: Zn2GeO4, Journal of the American Ceramic Society 96 (7), 2046-2049, 2014. （IF= 3.094）13) CX Chen, SP Wu*（吴松平）, YX Fan, Synthesis and microwave dielectric properties of B2O3-doped Mg2GeO4 ceramics, Journal of Alloys and Compounds 578 (20), 153-156, 2014. （IF= 4.175）14) S Wu*（吴松平）, Y Mei, Morphology control of YMn2O5 nanocrystals by hydrothermal synthesis and their magnetic properties, RSC Adv. 3, 11888-11894, 2014. （IF= 2.936） 15) S.P. Wu∗（吴松平）, D.F. Chen, C. Jiang, Y.X. Mei, Q. Ma, Synthesis of Monoclinic CaSnSiO5 Ceramics and Their Microwave Dielectric Properties [J], Mater. Lett., 91, 239–241, 2013. （IF = 2.687） 16) Q. Ma, S.P. Wu*（吴松平）, C. Jiang, J.H. Li, Microwave Dielectric Properties of SnO2-doped CaSiO3 Ceramics [J], Ceram. Inter., 39, 2223–2229, 2013. （IF= 3.45） ESI高被引论文：1) S. Wu*（吴松平）, R. Xu, M. Lu, R. Ge, J. Iocozzia, C. Han, B. Jiang, and Z. Lin, * Graphene-Containing Nanomaterials for Lithium Ion Battery, Advanced Energy Materials，2015，5，1500400 （IF= 24.88） (Back Cover)（2017）2) Songping Wu*（吴松平）, Yao Du, Shuijing Sun, Transition metal dichalcogenide based nanomaterials for rechargeable batteries, Chemical Engineering Journal, 2017, 307, 189-207 ( IF= 8.35)（2017）3) R Xu, SP Wu*（吴松平）, Y Du, Z Zhang, A facile route to dually protected Ge@GeO2 composites as anode materials for lithium ion battery, Chemical Engineering Journal, 2016, 296 (15), 349–355 ( IF= 8.35) （2018）4) Liao, Chan; Wu, Songping, Pseudocapacitance behavior on Fe3O4-pillared SiOx microsphere wrapped by graphene as high performance anodes for lithium-ion batteries, Chemical Engineering Journal, 355 (2019) 805–814 ( IF= 8.35)（2019）科研创新 1. 吴松平，焦丽，江婵，丁晓鸿，低温烧结的ZnO-MgO-TiO2体系微波陶瓷材料及其制备方法，中国，ZL 200910036899.1, 发明专利（授权）2. 杜瑶，吴松平，刘淳，田小东. 一种石墨烯基FeS2纳米材料及制备与应用. ZL 201610457521.9, 发明专利（授权， 2018-09-14）3. 吴松平，杜瑶. 一种石墨烯基核壳结构MnO@MnFe2O4纳米材料及制备与应用. ZL 201610280812.5，发明专利（授权）4. 吴松平，黄明保，陈彩虹，一种四氧化三铁/石墨复合纳米材料及其制备方法与在锂离子电池中的应用。ZL 201610964287.9，发明专利（授权2018-10-09）5. 吴松平，田小东，黄明保，杜瑶，刘淳，一种非晶锰氧化物/石墨复合纳米材料及其制备方法与在锂离子电池中的应用，ZL 201610816354.2，发明专利（授权2020-01-14）6. 吴松平，廖婵，刘淳，孙水晶，田小东，黄明保，杜瑶，一种一氧化硅石墨烯复合纳米材料及其制备方法与在锂离子电池中的应用，ZL 201710620310.7，发明专利（授权2020-04-17）7. 吴松平，刘淳，田小东，黄明保，廖婵，孙水晶，一种石墨烯和四氧化三铁双重包覆纳米硅复合材料及其制备方法与在锂离子电池中的应用，ZL 201710625760.5，发明专利（授权，2020-05-22）8. 严玉蓉, 林超，邱志明，吴松平，李伟培，黄楚云，夏琪，续安鼎，一种多孔中空纤维导电材料及其制备方法. ZL 201811325447.0 申请日：2018年11月8日授权日期：2021.4.27（授权）9. 严玉蓉, 黄楚云，林超，吴松平，李伟培，一种具有皮芯纤维结构的相变储能材料及其制备方法. ZL 201811324958.0 申请日：2018年11月8日授权日期2021.2.19（授权）10. 严玉蓉，李伟培，吴松平，黄楚云，林超，张申魁，陈焯文，一种具有互穿网络结构的复合增强材料及其制备方法，ZL 201811324960.8，发明专利，授权日期2021.7.611. 吴松平，续安鼎，严玉蓉，张申魁，夏琪，陈焯文，一种一维多孔锑基功能性碳纳米管及其制备方法和应用，CN 201811324955.7，发明专利12. 吴松平,杜丽,严玉蓉,续安鼎,张申魁,夏琪, 一种含单层MXene纳米片的碳纤维复合材料及制备和应用, CN 201911373643X，发明专利13. 吴松平,张申魁,严玉蓉,夏琪,续安鼎,陈焯文, 一种含硫化物纳米颗粒的一维多孔碳纤维及制备与应用, CN2018113254663, 发明专利14. 吴松平，余慧玲，严玉蓉，琚家豪，黄楚云，张瑞秋，孙浩，刘卫霞，废铜线使用寿命的多维度评估方法，CN 202010256852.2，发明专利15. 吴松平，付丽丽，宋杨，孙浩，琚家豪，徐鑫，王绎君，由二维硅纳米片自组装的硅碳微球复合材料及制备方法与其在锂离子电池负极材料中的应用 CN202010747593.3 发明专利16. 严玉蓉,李桂兰,吴松平,曹泳琳,范淑颖, 一种环保的口罩及其回收再生的方法, CN2020104496815，发明专利17. 严玉蓉，黄楚云，吴松平，续安鼎，李桂兰，一种化学键增强的包埋单分散纳米合金颗粒的银耳状扩孔碳球及制备与应用（发明专利）. 申请号：202110310113.1（2021.3.23 教学活动本科生：大学化学、无机化学理论、实验课指导学生情况课题组和企业成立研究生校级培养基地，研究生有到知名企业实习的机会。4人次研究生获国家奖学金，5人次获优秀硕士论文奖及3人次专业实践优秀研究生。