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伊廷锋(博导)

日期:2023年08月31日 12:09来源: 作者: 关注:

伊廷锋,男,1979年7月生,教授(三级)、博士生导师。

5089

联系电话:0335-8608071

电子邮箱:tfyihit@163.com

研究方向:

锂(钠)离子电池,超级电容器,铅酸电池,水系电池、电催化、

电极材料第一性原理计算

教育背景:

1997.09-2001.07:聊城大学,化学工程与工艺专业,工学学士

2002.09-2004.07:哈尔滨工业大学,应用化学专业,工学硕士

2004.09-2007.07:哈尔滨工业大学,化学工程与技术专业,工学博士

工作履历:

2007.09-2010.12:安徽工业大学,化学与化工学院,副教授、硕导

2011.01-2015.10:安徽工业大学,化学与化工学院,教授、硕导

2012.04-2014.09:哈尔滨工业大学/超威电源有限公司,博士后

2015.10-2018.09:安徽工业大学,化学与化工学院,教授、博导

2018.07-至今: 东北大学,秦皇岛分校资源与材料学院,教授、博导

学术兼职:

中国冶金教育学会学位与研究生教育分会常务理事、物理化学学报编委、Rare Metals青年编委、Chinese Chemical Letters青年编委、稀有金属材料与工程青年编委、稀有金属青年编委、有色金属工程青年编委、安徽省化学会理事、中国电子学会高级会员、中国化学会会员、中国化工学会会员。

科研项目:

作为项目负责人主持完成20余项科研项目,其中国家自然科学基金项目5项,省部级项目6项,其它纵向课题6项,企业产学研项目5项。

(1)国家自然科学基金青年项目,50902001,20万,结题,主持;

(2)国家自然科学基金面上项目,51274002,80万,结题,主持;

(3)国家自然科学基金面上项目,51774002,60万,结题,主持;

(4)国家自然科学基金钢铁联合研究基金项目,U1960107,68万,结题,主持;

(5)国家自然科学基金面上项目,52374301,50万,在研,主持;

(6)国家自然科学基金面上项目,21773060,65万,结题,联合单位项目负责人;

(7)安徽省高校优秀青年人才支持计划重点项目,6万,gxyqZD2016066,结题优秀,主持;

(8)安徽省自然科学基金面上项目,8万,1508085MB25,结题,主持;

(9)中国博士后科学基金面上项目,5万,2012M520749,结题,主持;

(10)浙江省博士后科研择优一等资助项目,5万,Bsh1201013,结题,主持;

(11)安徽高校省级自然科学研究重点项目,KJ2010A045,结题,主持;

(12)河北省“三三三人才工程”资助项目,5万,A202005018,在研,主持

(13)中央高校基本业务费国家项目培育基金,13万,N182304014,结题,主持;

(14)中央高校基本业务费重点科学研究引导项目,30万,N2123001,在研,主持;

(15)安徽高等学校省级优秀青年人才基金重点项目,2万,2010SQRL033ZD,结题优秀,主持;

(16)黑龙江大学功能无机材料化学教育部重点实验室开放基金(结题2项,在研1项),主持;

(17)桂林理工大学广西电磁化学功能物质重点实验室开放基金重点项目,4万,EMFM20182207,结题,主持;

(18)昌盛电气江苏有限公司项目,结题,主持;

(19)安徽永恒动力科技有限公司项目,结题,主持。

(20)江苏特丰新材料科技有限公司项目,结题,主持;

(21)浙江长兴金太阳电源有限公司项目,结题,主持;

(22)河北超威电源有限公司项目,结题,主持。

教学项目

(1)安徽省重大教学改革研究项目,10万,2013zdjy076,2013.10-2016.9,结题,主持;

(2)安徽省精品资源共享课程,5万,物理化学(2015gxk020),批准文号:皖教秘高〔2015〕122号,2015.12-2018.11,结题,主持;

(3)安徽省精品资源共享课程,5万,工程化学(2016gxk017),批准文号:皖教秘高〔2016〕189号,2016.12-2019.11,结题,主持;

(4)安徽工业大学教学团队,应用电化学,5万,批准文号:教学[2016]16号;2016.10-2019.9,结题,主持;

(5)河北省研究生课程思政示范课程,环境与能源材料,2万,项目编号:YKCSZ2022140,2023.01-2024.01,在研,主持;

奖励与荣誉:

(1)河北省师德标兵,2023年8月

(2)河北省普通本科院校教学名师,2021年9月;

(3)河北省青年科技奖,2019年11月;

(4)河北省三三三人才第二层次人选,2019年9月;

(5)江苏省双创人才,2019年7月;

(6)河北省三三三人才第三层次人选,2018年10月;

(7)安徽省技术领军人才,2015年8月;

(8)安徽省教坛新秀,2013年12月;

(9)安徽省高校优秀共产党员,2011年6月;

(10)宿迁市创业创新领军人才,2017年12月;

(11)安徽工业大学教学成果奖一等奖,2015年12月,排名第一;

(12)安徽工业大学教学成果奖一等奖,2017年12月,排名第一;

(13)安徽工业大学青年教师基本功大赛,二等奖,2012年12月;

(14)安徽工业大学“五四”青年奖章,2017年5月;

(15)入选2017英国皇家化学会“Top 1%高被引中国作者”榜单;

(16)入选2019年度科睿唯安(Clarivate Analytics)材料科学(Materials Science)领域和交叉领域(Cross-Field)“Top 1%审稿人”。

(17)第四届中国有色金属优秀科技论文A级优秀论文,2020年10月;

(18)第四届中国有色金属优秀科技论文B级优秀论文,2020年10月;

(19)2020年度化学工业出版社优秀图书奖;

(20)入选斯坦福大学(Stanford University)发布的World’s Top 2% Scientists 2020榜单。

(21)安徽省大学生课外学术科技作品竞赛“优秀指导老师”,2009年6月;

(22)全球顶尖前10万科学家排名,2022年4月。

指导学生获奖:

(1)左阳等(本科生),第十一届“挑战杯”(航空航天)全国大学生课外学术科技作品竞赛,三等奖,2009年11月;

(2)罗振豪等(本科生),2022年河北省大学生节能减排社会实践与科技竞赛,二等奖,2022年5月;

(3)任康瑞等(本科生),2023年“挑战杯”河北省大学生课外学术科技作品竞赛,特等奖,2023年6月;

(4)刘朝志等(本科生),2023年河北省大学生创新创业年会,特等奖,2023年7月;

(5)赵钰燊等(硕士生),2023年“建行杯”第九届河北省“互联网+”大学生创新创业大赛,金奖,2023年8月;

(6)秦恺毅等(本科生),2023年“建行杯”第九届河北省“互联网+”大学生创新创业大赛,银奖,2023年8月;

学术成果

【论文、专著与专利等】

到2021年9月为止,共发表第一作者或通讯作者SCI期刊论文200余篇,H因子为51,他引9000余次,先后有23篇论文为ESI高引论文,6篇论文入选热点(ESI HOT paper)论文,21篇论文被引用超百次,论文信息见researcher ID:http://www.researcherid.com/rid/F-4594-2012.先后为Chem. Rev. Soc.、Nat. Commun.、Adv. Mater.、Chem. Mater.等国内外60余种期刊审稿800余篇,合作出版专著3部,授权第一发明专利14项。

【出版著作】

(1)伊廷锋,谢颖.锂离子电池电极材料, 2019年1月,ISBN: 978-7-122-32095-7,入选化学工业出版社“中国制造2025”出版工程和“十三五”国家重点出版物出版规划项目,获2020年度化学工业出版社优秀图书奖;

(2)张桥保,吴贤文,陆敬予,伊廷锋,电池材料——合成、表征与应用,化学工业出版社,2022年4月,ISBN: 978-7-122-40290-5;

(3)胡信国等,《动力电池技术与应用》(伊廷锋参编),化学工业出版社,2009年7月,ISBN: 9787122051158,获2010年中国石油和化学工业优秀出版物奖(图书奖)二等奖;

(4)胡信国等,《动力电池技术与应用》第二版(伊廷锋参编),化学工业出版社,2013年1月, ISBN:9787122155818;

(5)胡信国,戴长松,王殿龙,等.《动力电池材料》(伊廷锋参编),化学工业出版社,2013年7月, ISBN:9787122165657。

【发表的第一或通讯作者主要论文(IF>8.0及ESI高引论文)】

2023年论文

[1] Hui Chang, Ya-Fei Guo, Xu Liu, Peng-Fei Wang, Ying Xie*,Ting-Feng Yi*,Dual MOF-derived Fe/N/P-tridoped carbon nanotube as high-performance oxygen reduction catalysts for zinc-air batteries,Applied Catalysis B: Environmental, 2023, 327, 122469.(IF22.1)

[2] Ya-Fei Guo, Ying Li, Yu-Hao Chen, Peng-Fei Wang, Ying Xie*,Ting-Feng Yi*, Rational design of one-dimensional cobalt-related oxygen electrocatalysts toward high-performance zinc-air batteries,Coordination Chemistry Reviews, 2023, 495, 215383. (IF20.6)

[3] Nan Zhang, Jian-Cang Wang, Ya-Fei Guo, Peng-Fei Wang, Yan-Rong Zhu,Ting-Feng Yi*,Insights on rational design and energy storage mechanism of Mn-based cathode materials towards high performance aqueous zinc-ion batteries,Coordination Chemistry Reviews, 2023, 479, 215009.(IF20.6)

[4] Peng-Fei Wang#, Xuewei He#, Ze-Chen Lv, Hucheng Song*, Xiaoying Song,Ting-Feng Yi*,Ning Xu, Ping He*, Haoshen Zhou, Light-driven polymer-based all-solid-state lithium-sulfur battery operating at room temperature,Advanced Functional Materials, 2023, 33(5): 2211074. (IF19)

[5] Yu-Rui Ji, Ya-Fei Guo, Xu Liu, Peng-Fei Wang,Ting-Feng Yi*,Insights on rational design and regulation strategies of Prussian blue analogues and their derivatives towards high-performance electrocatalysts,Chemical Engineering Journal, 2023, 471, 144743. (IF15.1)

[6] Ting-Ting Wei, Xu Liu, Shao-Jie Yang, Peng-Fei Wang,Ting-Feng Yi*,Regulating the electrochemical activity of Fe-Mn-Cu-based layer oxides as cathode materials for high-performance Na-ion battery,Journal of Energy Chemistry, 2023, 80, 603-613(IF13.1)

[7] Nan Zhang, Yu-Rui Ji, Jian-Cang Wang, Peng-Fei Wang, Yan-Rong Zhu,Ting-Feng Yi*,Understanding of the charge storage mechanism of MnO2-based aqueous zinc-ion batteries: Reaction processes and regulation strategies,Journal of Energy Chemistry, 2023,82,423-463. (IF13.1)

[8] Hui Chang, Li-Ying Qiu, Yu-Hao Chen, Peng-Fei Wang, Yan-Rong Zhu,Ting-Feng Yi*,Rational construction of Prussian blue analogue with inverted pyramid morphology as ultrastable cathode material for lithium-ion battery,Composites Part B: Engineering, 2023, 250, 110434.(IF13.1)

[9] Nan Zhang, Junru Wang, Xu Liu, Peng-Fei Wang, Yan-Guo Liu, Ying Xie*,Ting-Feng Yi*, Towards high-performance aqueous Zn–MnO2batteries: Formation mechanism and alleviation strategies of irreversible inert phases,Composites Part B: Engineering, 2023, 260, 110770. (IF13.1)

[10] Ying Li, Yushen Zhao, Kai Chen, Xu Liu,Tingfeng Yi*, Li-Feng Chen*, Rational design of cross-linked N-doped C-Sn nanofibers as free standing electrodes towards high-performance li-ion battery anodes,Acta Physico-Chimica Sinica, 2024, 40: 2305007. (IF10.9)

[11] Fan-Fan Wang, Yu-Rui Ji, Yu-Hao Chen, Peng-Fei Wang, Qin-Zhi Lai, Feilong Qiu*, Yan-Rong Zhu*,Ting-Feng Yi*,Rational construction of graphitic carbon nitride composited Li-rich Mn-based oxide cathode materials toward high-performance Li-ion battery,Journal of Colloid and Interface Science, 2023,2023, 652, 577-589. (IF9.9)

[12] Ze-Chen Lv, Fan-Fan Wang, Jian-Cang Wang,Peng-Fei Wang*,Ting-Feng Yi*,Durable lithium-ion insertion/extraction and migration behavior of LiF-encapsulated cobalt-free lithium-rich manganese-based layered oxide cathode,Journal of Colloid and Interface Science, 2023, 649, 175-184. (IF9.9)

[13] Baole Guan, Shao-Jie Yang, Shu-Hui Tian, Ting Sun, Peng-Fei Wang,Ting-Feng Yi*, In-situ-grown multidimensional Cu-doped Co1-xS2@MoS2on N-doped carbon nanofibers as anode materials for high-performance alkali metal ion batteries,Journal of Colloid and Interface Science, 2023, 650, 369-380. (IF9.9)

[14] Yu-Rui Ji, Ze-Chen Lv, Yu-Shen Zhao, Peng-Fei Wang,Ting-Feng Yi*,Facile fabrication of Li5Cr7Ti6O25@Li0.33La0.56TiO3composites as promising anode materials for high-performance Li-ion batteries,Sustainable Materials and Technologies, 2023, 36, e00598.(IF9.6)

2022年论文

[15] Hui Chang, Ling-Na Shi, Yu-Hao Chen, Peng-Fei Wang,Ting-Feng Yi*, Advanced MOF-derived carbon-based non-noble metal oxygen electrocatalyst for next-generation rechargeable Zn-air batteries,Coordination Chemistry Reviews, 2022, 473, 214839. (ESI热点IF20.6)

[16] Ling-Na Shi, Lan-Tong Cui, Yu-Rui Ji, Ying Xie*, Yan-Rong Zhu,Ting-Feng Yi*, Towards high-performance electrocatalysts: Activity optimization strategy of 2D MXenes-based nanomaterials for water-splitting,Coordination Chemistry Reviews, 2022, 469, 214668. (IF20.6)

[17] Baole Guan, Li Sheng, Nan Zhang, Ting Sun, Yan-Rong Zhu, Jun-Hong Zhang*,Ting-Feng Yi*, Bimetallic metal-organic framework derived transition metal sulfide microspheres as high-performance lithium/sodium storage materials,Chemical Engineering Journal, 2022, 446: 137154. (IF15.1)

[18] Li-Na Hu, Xue-Zhong Li, Ze-Chen Lv, Yan-Rong Zhu, Jun-Hong Zhang*,Ting-Feng Yi*, Design of Sb2Se3-based nanocomposites for high-performance alkali metal ion batteries driven by a hybrid charge storage mechanism,Chemical Engineering Journal, 2022, 440: 135971. (IF15.1)

[19] Ting-Ting Wei, Panpan Peng, Yu-Rui Ji, Yan-Rong Zhu,Ting-Feng Yi*, Ying Xie*, Rational construction and decoration of Li5Cr7Ti6O25@C nanofibers as stable lithium storage materials,Journal of Energy Chemistry, 2022, 71, 400-410. (ESI高被引、ESI热点IF13.1)

[20] Hong-Li Ding, Hai-Tao Yu, Xiao-dong Wang*, Chen-Feng Guo, Bing Zheng, Ying Xie*,Ting-Feng Yi*, Improving the stability, lithium diffusion dynamics, and specific capacity of SrLi2Ti6O14via ZrO2coating,Green Energy & Environment, 2022, 7(1): 53-65. (IF13.3)

[21] Ting-Ting Wei, Nan Zhang, Yu-Shen Zhao, Yan-Rong Zhu,Ting-Feng Yi*, Sodium-deficient O3–Na0.75Fe0.5-xCuxMn0.5O2as high-performance cathode materials of sodium-ion batteries,Composites Part B: Engineering, 2022, 238, 109912. (IF13.1)

[22] Xue-Zhong Li, Jin-Peng Qu, Yu-Shen Zhao, Qin-Zhi Lai, Peng-Fei Wang*,Ting-Feng Yi*, Reaction mechanisms, recent progress and future prospects of tin selenide-based composites for alkali-metal-ion batteries,Composites Part B: Engineering, 2022, 242, 110045. (IF13.1)

[23] 李莹,来雪琦,曲津朋,赖勤志,伊廷锋*.钠离子电池用高性能锑基负极材料的调控策略研究进展,物理化学学报, 2022, 38(11): 2204049.(IF10.9)

[24] Tingting Wei, Nan Zhang, Yurui Ji, Junhong Zhang*, Yanrong Zhu,Tingfeng Yi*, Nanosized zinc oxides-based materials for electrochemical energy storage and conversion: batteries and supercapacitors,Chinese Chemical Letters, 2022, 33(2): 716-736. (IF9.1)

[25] Xue-Zhong Li, Nan Zhang, Yu-Rong Wu, Qin-Zhi Lai, Yan-Rong Zhu, Jun-Hong Zhang*, Ping Cui*,Ting-Feng Yi*,Interconnected Bi5Nb3O15@CNTs network as high-performance anode materials of Li-ion battery,Rare Metals, 2022, 41(10): 3401-3411.(IF8.8)

2021年论文

[26] Ting-Feng Yi*, Liying Qiu, Jin-Peng Qu, Hongyan Liu, Jun-Hong Zhang*, Yan-Rong Zhu, Towards high-performance cathodes: Design and energy storage mechanism of vanadium oxides-based materials for aqueous Zn-ion batteries,Coordination Chemistry Reviews, 2021,446, 214124. (IF20.6)

[27] Ting-Feng Yi*, Hirbod Maleki Kheimeh Sari, Xuezhong Li, Fanfan Wang, Yan-Rong Zhu, Junhua Hu, Jiujun Zhang*, Xifei Li*, A review of niobium oxides based nanocomposites for lithium-ion batteries, sodium-ion batteries and supercapacitors,Nano Energy, 2021, 85, 105955. (ESI高被引、ESI热点IF17.6)

[28] Ting feng Yi*, Lingna Shi, Xiao Han, Fanfan Wang, Yanrong Zhu, Ying Xie*, Approaching high-performance lithium storage materials by constructing hierarchical CoNiO2@CeO2nanosheets,Energy & Environmental Materials, 2021, 4(4): 586–595. (IF15)

[29] Hui Chang, Xuezhong Li, Lingna Shi, Yan-Rong Zhu,Ting-Feng Yi*, Towards high-performance electrocatalysts and photocatalysts: Design and construction of MXenes-based nanocomposites for water splitting,Chemical Engineering Journal, 2021, 421, 129944.(IF15.1)

[30] Baole Guan, Si-Yu Qi, Ying Li, Ting Sun*, Yan-Guo Liu*,Ting-Feng Yi*, Towards high-performance anodes: Design and construction of cobalt-based sulfide materials for sodium-ion batteries,Journal of Energy Chemistry, 2021, 54, 680-698. (IF13.1)

[31] Ting-Ting Wei, Panpan Peng, Si-Yu Qi, Yan-Rong Zhu,Ting-Feng Yi*, Advancement of technology towards high-performance non-aqueous aluminum-ion batteries,Journal of Energy Chemistry, 2021, 57, 169-188. (IF13.1)

[32] Ting-Ting Wei, Fan-Fan Wang, Xue-Zhong Li, Jun-Hong Zhang*, Yan-Rong Zhu,Ting-Feng Yi*, Towards high-performance battery systems by regulating morphology of TiO2materials,Sustainable Materials and Technologies, 2021, 30, e00355. (IF9.6)

[33] Hui Chang, Ying Li, Zi-Kui Fang, Jin-Peng Qu, Yan-Rong Zhu,Ting-Feng Yi*, Construction of carbon-coated LiMn0.5Fe0.5PO4@Li0.33La0.56TiO3nanorod composites for high-performance Li-ion battery,ACS Applied Materials & Interfaces, 2021, 13(28): 33102-33111. (IF9.5)

[34] Ting-Feng Yi*, Hui Chang, Ting-Ting Wei, Si-Yu Qi, Yanmei Li*, Yan-Rong Zhu, Approaching high-performance electrode materials of ZnCo2S4nanoparticle wrapped carbon nanotubes for supercapacitors,Journal of Materiomics, 2021, 7(3): 563-576. (ESI高引IF9.4)

[35] Pan-Pan Peng#, Yu-Rong Wu#, Xue-Zhong Li, Jun-Hong Zhang*, Yan-Wei Li, Ping Cui*,Ting-Feng Yi*, Toward superior lithium/sodium storage performance: design and construction of novel TiO2-based anode materials,Rare Metals, 2021, 40(11): 3049–3075. (IF8.8)

[36] T.-F. Yi*, J.-P. Qu, X. Lai, X. Han, H. Chang, Y.-R. Zhu, Towards high-performance Li storage anodes: Design and construction of spherical carbon-coated CoNiO2materials,Materials Today Chemistry, 2021, 19, 100407. (ESI高被引IF7.3)

2020年论文

[37] Ting-Feng Yi*,Ting-Ting Wei, Ying Li, Yan-Bing He*, Zhen-Bo Wang*, Efforts on Enhancing the Li-ion Diffusion Coefficient and Electronic Conductivity of Titanate-based Anode Materials for Advanced Li-ion Batteries,Energy Storage Materials, 2020, 26: 165-197. (ESI高被引、ESI热点IF20.4)

[38] Ting-Feng Yi*, Li-Ying Qiu, Jie Mei, Si-Yu Qi, Ping Cui, Shaohua Luo, Yan-Rong Zhu, Ying Xie⁎, Yan-Bing He⁎, Porous spherical NiO@NiMoO4@PPy nanoarchitectures as advanced electrochemical pseudocapacitor materials,Science Bulletin, 2020, 65(7): 546-556. (ESI高引、ESI热点IF18.9)

[39] Tingting Liu, Xikun Zhang, Maoting Xia, Haoxiang Yu, Na Peng, Cheng Jiang, Miao Shui, Ying Xie*,Ting-Feng Yi*,Jie Shu*, Functional cation defects engineering in TiS2for high-stability anode,Nano Energy, 2020, 67, 104295 (ESI高被引IF17.6)

[40] Ting-Feng Yi*,Jing-Jing Pan, Ting-Ting Wei, Yanwei Li∗, Guozhong Cao∗, NiCo2S4-based nanocomposites for energy storage in supercapacitors and batteries,Nano Today, 2020, 33, 100894. (ESI高被引、ESI热点IF17.4)

[41] Meng-Cheng Han, Jun-Hong Zhang*, Ping Cui*, Yan-Rong Zhu,Ting-Feng Yi*,Construction of spherical ZnTiO3/MWCNTs composites as anode material for high-performance Li-ion batteries,Sustainable Materials and Technologies, 2020, 25: e00207. (IF9.6)

[42] Ting-Feng Yi*, Ying Li, Zikui Fang, Ping Cui, Shaohua Luo, Ying Xie, Improving the cycling stability and rate capability of LiMn0.5Fe0.5PO4/C nanorod as cathode materials by LiAlO2modification,Journal of Materiomics, 2020, 6(1): 33-44. (IF9.4)

[43] Shan-Shan Fan, Hai-Ping Liu*, Qian Liu, Cheng-Shuai Ma,Ting-Feng Yi*, Comprehensive insights and perspectives into the recent progress of electrode materials for non-aqueous K-ion battery,Journal of Materiomics, 2020, 6(2): 431-454. (IF9.4)

[44] Ting-Feng Yi*, Jie Mei, Baole Guan, Ping Cui, Shaohua Luo, Ying Xie∗, Yanguo Liu⁎, Construction of spherical NiO@MnO2with core-shell structure obtained by depositing MnO2nanoparticles on NiO nanosheets for high-performance supercapacitor,Ceramics International, 2020, 46(1): 421-429.(ESI高被引IF5.2)

2019年论文

[45] Shao-hua Luo⁎, Dong-bei Hu, Huan Liu, Jun-zhe Li,Ting-Feng Yi*, Hydrothermal synthesis and characterization ofα-Fe2O3/C using acid-pickled iron oxide red for Li-ion batteries,Journal of Hazardous Materials, 2019, 368: 714–721. (IF13.6)

[46] Yanmei Li, Jingjing Pan, Jinzhu Wu,Tingfeng Yi*, Ying Xie∗, Mesoporous NiCo2O4nanoneedles@MnO2nanoparticles grown on nickel foam for electrode used in high-performance supercapacitors,Journal of Energy Chemistry, 2019, 31: 167-177. (IF13.1)

[47] Yanmei Li, Xiao Han,Tingfeng Yi*, Yanbing He∗, Xifei Li, Review and prospect of NiCo2O4-based composite materials for supercapacitor electrodes,Journal of Energy Chemistry, 2019, 31: 54-78. (ESI高被引IF13.1)

[48] Ting-Feng Yi*, Jie Mei, Pan-Pan Peng, Shaohua Luo∗, Facile synthesis of polypyrrole-modified Li5Cr7Ti6O25with improved rate performance as negative electrode material for Li-ion batteries,Composites Part B: Engineering, 2019, 167: 566–572. (IF13.1)

[49] Ting-Feng Yi*, Pan-Pan Peng, Zikui Fang, Yan-Rong Zhu, Ying Xie*, Shaohua Luo*, Carbon-coated LiMn1-xFexPO4(0≤x≤0.5) nanocomposites as high-performance cathode materials for Li-ion battery,Composites Part B: Engineering, 2019, 175, 107067. (IF13.1)

[50] Huan Liu, Shao-hua Luo∗, Sheng-xue Yan, Qing Wang∗, Dong-bei Hu, Ying-ling Wang, Jian Feng,Ting-Feng Yi*, High-performance α-Fe2O3/C composite anodes for lithium-ion batteries synthesized by hydrothermal carbonization glucose method used pickled iron oxide red as raw material,Composites Part B: Engineering, 2019, 164: 576-582. (IF13.1)

2017-2018年论文

[51] Ting-Feng Yi*, Yan-Mei Li, Xiao-Ya Li, Jing-Jing Pan, Qianyu Zhang, * Yan-Rong Zhu*, Enhanced electrochemical property of FePO4-coated LiNi0.5Mn1.5O4as cathode materials for Li-ion battery,Science Bulletin, 2017, 62(14): 1004-1010.(IF18.9)

[52] Xiao Han, Xuan Gui,Ting-Feng Yi*, Yanwei Li, Caibo Yue, Recent progress of NiCo2O4-based anodes for high-performance lithium-ion batteries,Current Opinion in Solid State & Materials Science, 2018, 22(4): 109-126. (ESI高被引IF11)

[53] Hong-bo Huang, Shao-hua Luo*, Cai-ling Liu,Ting-Feng Yi*, Yu-chun Zhai, High-Surface-Area and Porous Co2P Nanosheets as Cost-Effective Cathode Catalysts for Li–O2Batteries,ACS Applied Materials & Interfaces, 2018, 10(25): 21281–21290. (IF9.5)

[54] Jie Mei,Ting-Feng Yi*, Xin-Yuan Li, Yan-Rong Zhu, Ying Xie*, Chao-Feng Zhang*, Robust Strategy for Crafting Li5Cr7Ti6O25@CeO2Composites as High-Performance Anode Material for Lithium-Ion Battery,ACS Applied Materials & Interfaces, 2017, 9(28): 23662–23671. (IF9.5)

[55] Ting-Feng Yi*, Yan-Mei Li, Xu-Dong Cai, Shuang-Yuan Yang, Yan-Rong Zhu*, Fe-stabilized Li-rich layered Li1.2Mn0.56Ni0.16Co0.08O2oxide as a high performance cathode for advanced lithium-ion batteries,Materials Today Energy, 2017,4: 25-33. (IF9.3)

[56] Ting-Feng Yi*, Yan-Rong Zhu, Wei Tao, Shaohua Luo∗, Ying Xie∗, Xi-Fei Li, Recent advances in the research of MLi2Ti6O14(M=2Na, Sr, Ba, Pb) anode materials for Li-ion batteries,Journal of Power Sources, 2018, 399: 26–41. (ESI高被引IF9.2)

[57] Wei Tao,Mao-Lian Xu,Yan-Rong Zhu*,Qianyu Zhang*,Ting-Feng Yi*, Structure and electrochemical performance ofBaLi2-xNaxTi6O14(0≤x≤2) as anode materials for lithium-ion battery,Science China Materials,2017, 60(8): 728-738. (IF8.1)

2015-2016年论文

[58] Ting-Feng Yi*, Yan-Mei Li, Shuang-Yuan Yang, Yan-Rong Zhu, and Ying Xie*,Improved cycling stability and fast charge-discharge performance of cobalt-free Li-rich oxides by magnesium-doping,ACS Applied Materials & Interfaces, 2016, 8(47): 32349–32359. (IF9.5)

[59] Pengfei Wang, Shangshu Qian,Ting-Feng Yi*, Haoxiang Yu, Lei Yan, Peng Li, Xiaoting Lin, Miao Shui, Jie Shu*, Effect of sodium-site doping on enhancing the lithium storage performance of sodium lithium titanate,ACS Applied Materials & Interfaces, 2016, 8 (16): 10302–10314. (IF9.5)

[60] Ting-Feng Yi*, Jie Mei, Yan-Rong Zhu, Key strategies for enhancing the cycling stability and rate capacity of LiNi0.5Mn1.5O4as high-voltage cathode materials for high power lithium-ion batteries,Journal of Power Sources, 2016, 316: 85-105. (ESI高被引, IF9.2)

[61] Qi Wang, Hai-Tao Yu, Ying Xie*, Ming-Xia Li,Ting-Feng Yi*, Chen-Feng Guo, Qing-Shan Song, Ming Lou, Shan-Shan Fan, Structural stabilities, surface morphologies and electronic properties of spinel LiTi2O4as anode materials for lithium-ion battery: A first-principles investigation,Journal of Power Sources, 2016, 319: 185-194. (IF9.2)

[62] Ting-Feng Yi*, Xiao Han, Shuang-Yuan Yang, Yan-Rong Zhu, Enhanced electrochemical performance of Li-rich low-Co Li1.2Mn0.56Ni0.16Co0.08xAlxO2(0≤x≤0.08) as cathode materials,Science China Materials,2016, 59(8): 618-628. (IF8.1)

[63] Zi-Kui Fang, Yan-Rong Zhu,Ting-Feng Yi*, Ying Xie*,Li4Ti5O12-LiAlO2composite as high performance anode material for lithium-ion battery,ACS Sustainable Chemistry & Engineering, 2016, 4 (4): 1994–2003. (IF8.4)

[64] Ting-Feng Yi*,Shuang-Yuan Yang, Ying Xie*, Recent advances of Li4Ti5O12as promising next generation anode material for high power lithium-ion batteries,Journal of Materials Chemistry A, 2015, 3(11): 5750-5777.(ESI高被引,IF11.9)

[65] Ying Xie*, Hai-Tao Yu,Ting-Feng Yi*, Qi Wang, Qing-Shan Song, Ming Lou, Yan-Rong Zhu, Thermodynamic stability and transport property of tavorite LiFeSO4F as cathode material for lithium-ion battery,Journal of Materials Chemistry A, 2015, 3(39):19728-19737.((Inside Back Cover, IF11.9)

[66] Pengfei Wang, Peng Li,Ting-Feng Yi*, Xiaoting Lin, Haoxiang Yu, Yan-Rong Zhu, Shangshu Qian, Miao Shui, Jie Shu*, Enhanced lithium storage capability of sodium lithium titanate via lithium-site doping,Journal of Power Sources 2015, 297: 283-294. (IF9.2)

[67] Pengfei Wang, Peng Li,Ting-Feng Yi*, Xiaoting Lin, Yan-Rong Zhu, Lianyi Shao, Miao Shui, Nengbing Long, Jie Shu*, Improved lithium storage performance of lithium sodium titanate anode by titanium site substitution with aluminum,Journal of Power Sources, 2015, 293: 33-41. (IF9.2)

[68] Ting-Feng Yi*, Jin-Zhu Wu, Jing Yuan, Yan-Rong Zhu, Peng-Fei Wang, Rapid lithiation and delithiation property of V‑Doped Li2ZnTi3O8as anode material for lithium-ion battery,ACS Sustainable Chemistry & Engineering, 2015, 3(12): 3062−3069. (IF8.4)

2012-2014年论文

[69] Ting-Feng Yi*,Zi-Kui Fang, Ying Xie*, Yan-Rong Zhu,Shuang-Yuan Yang,Rapid charge-discharge property of Li4Ti5O12-TiO2nanosheet and nanotube composites as anode material for power lithium-ion batteries,ACS Applied Materials & Interfaces, 2014,6(22): 20205−20213.(IF9.5)

[70] Ying Xie*,Hai-Tao Yu,Ting-Feng Yi*, Yan-Rong Zhu. Understanding the thermal and mechanical stabilities of olivine-type LiMPO4(M=Fe, Mn) as cathode materials for rechargeable lithium batteries from first-principles.ACS Applied Materials & Interfaces, 2014, 6 (6): 4033–4042. (IF9.5)

[71] Ting-Feng Yi*, Bin Chen, Yan-Rong Zhu, Xiao-Ya Li, Rong-Sun Zhu. Enhanced rate performance of molybdenum-doped spinel LiNi0.5Mn1.5O4cathode materials for lithium ion battery.Journal of Power Sources, 2014, 247:778-785. (IF9.2)

[72] Ting-Feng Yi*, Shuan-Yuan Yang, Xiao-Ya Li, Jin-Han Yao*, Yan-Rong Zhu, Rong-Sun Zhu.Sub-micrometric Li4-xNaxTi5O12(0≤x≤0.2) spinel as anode material exhibiting high rate capability,Journal of Power Sources, 2014,246: 505-511.(ESI高被引, IF9.2)

[73] Ting-Feng Yi*,Ying Xie*,Yan-Rong Zhu, Rong-Sun Zhu, Haoyu Shen. Structural and thermodynamic stability of Li4Ti5O12anode material for lithium-ion battery,Journal of Power Sources, 2013, 222: 448~454.(ESI高被引, IF9.2)

[74] Yan-Rong Zhu, Long-Cheng Yin,Ting-Feng Yi*, Haiping Liu*, Ying Xie*, Rong-Sun Zhu, Electrochemical performance and lithium-ion intercalation kinetics of submicron-sized Li4Ti5O12anode material,Journal of Alloys and Compounds,2013, 547: 107~112. (ESI高被引IF6.2)

[75] Ting-Feng Yi*,Haiping Liu, Yan-Rong Zhu, Li-Juan Jiang,Ying Xie*,Rong-Sun Zhu. Improving the high rate performance of Li4Ti5O12through divalent zinc substitution.Journal of Power Sources,2012, 215: 258~265.(ESI高被引, IF9.2)

[76] Ting-Feng Yi*, Ying Xie*,Qiuju Wu, Haiping Liu*, Lijuan Jiang, Mingfu Ye, Rongsun Zhu. High rate cycling performance of lanthanum-modified Li4Ti5O12anode materials for lithium-ion batteries.Journal of Power Sources,2012, 214: 220~226.(ESI高被引, IF9.2)

[77] Ting-Feng Yi*, Ying Xie*,Yan-Rong Zhu, Rong-Sun Zhu, Ming-Fu Ye. High Rate micron-sized niobium-doped LiMn1.5Ni0.5O4as ultra high power positive-electrode material for lithium-ion batteries.Journal of Power Sources, 2012, 211: 59~65.(ESI高被引, IF9.2)

[78] Ting-Feng Yi*, Ying Xie*, Yan-Rong Zhu, J. Shu, An-Na Zhou, Hong-Bin Qiao. Stabilities and electronic properties of lithium titanium oxide anode material for lithium ion battery.Journal of Power Sources, 2012,198: 318~321.(IF9.2)

2006-2011年论文

[79] Ting-Feng Yi*, Li-Juan Jiang, J. Shu*, Cai-Bo Yue, Rong-Sun Zhu, Hong-Bin Qiao. Recent development and application of Li4Ti5O12as anode material of lithium ion battery,Journal of Physics and Chemistry of Solids, 2010, 71(9):1236~1242. (ESI高被引IF4)

[80] Ting-Feng Yi*, Hu Xinguo. Preparation and characterization of sub-micro LiNi0.5-xMn1.5+xO4for 5 V cathode materials synthesized by an ultrasonic-assisted co-precipitation method,Journal of Power Sources, 2007, 167(1): 185~191. (IF9.2)

[81] Tingfeng Yi*, Wang Dianlong, Hu Xinguo, Huo Huibin. Powder electrochemical properties with different particle sizes of spinel LiAl0.05Mn1.95O4synthesized by sol-gel method,Rare Metals,2007, 26(4): 330~334. (IF8.8)

[82] Tingfeng Yi*, Hu Xinguo, Gao Kun. Synthesis and physicochemical properties of LiAl0.05Mn1.95O4cathode material by the ultrasonic-assisted sol-gel method,Journal of Power Sources,2006, 162(1): 636~643. (IF9.2)

【授权专利】

[1]伊廷锋,梅洁,朱彦荣,诸荣孙.一种宽电位窗口的锂离子电池负极材料的制备方法,专利号:ZL201511005962.7,授权公告日:2017.12.29

[2]伊廷锋,朱彦荣.一种锂离子电池复合负极材料的制备方法,授权公告号:CN107221659B,专利号:ZL201710449705.5,授权公告日:2019.08.23

[3]伊廷锋,梅洁,朱彦荣.一种含钠的锂离子电池复合负极材料的制备方法,授权公告号:CN107204427B,专利号:ZL201710445989.0,授权公告日:2020.02.14

[4]伊廷锋,朱彦荣.一种具有多级结构的钛酸钠锂负极材料的制备方法,授权公告号:CN107742718B,专利号:ZL201710968566.7,授权公告日:2020.02.14

[5]伊廷锋,朱彦荣.一种锂离子电池用多级结构钛酸盐负极材料的制备方法,授权公告号:CN107749471B,专利号:ZL201710968478.7,授权公告日:2020.02.14

[6]伊廷锋, 朱彦荣, 梅洁.一种多级结构的球形N掺杂C包覆金属氧化物负极材料的制备方法,授权公告号:CN108258223B,专利号:ZL201810051386.7,授权公告日:2020.05.05

[7]伊廷锋, 潘静静, 朱彦荣.一种铬基锂离子电池复合负极材料的制备方法,授权公告号:CN107742710B,专利号:ZL201710968479.1,授权公告日:2020.05.19

[8]伊廷锋, 朱彦荣.一种铬钛基锂离子电池多级结构负极材料的制备方法,授权公告号:CN107732207B,专利号:ZL201710968783.6,授权公告日:2020.05.26

[9]伊廷锋, 韩啸,朱彦荣.一种多级结构的双金属氧化物复合负极材料的制备方法,授权公告号:CN107732206B,专利号:ZL201710968480.4,授权公告日:2020.06.30

[10]伊廷锋,  齐思雨, 仇立英, 韩梦成.罗绍华.一种锌位钠铜共掺杂协同氮硫掺杂碳包覆改性钛酸锌负极材料及其制备方法和用途,授权公告号:CN110581273B,专利号:ZL 201910882225.7,授权公告日:2021.04.13

[11]伊廷锋,戴德兵,张文泉,李忠明,戴长松.一种锂离子电池钛酸锂负极材料的制备方法,专利号: ZL 202010300966.2授权公告号: CN 111403721 B,授权公告日:2021.06.29

[12]伊廷锋,仇立英,齐思雨,韩梦成,刘延国.一种锌基负极材料的制备方法及由其制得的负极材料、负极极片和锂电池.专利号: ZL201910881271.5,授权公告号:CN110577237B授权公告日:2022.03.01

[13]伊廷锋,戴德兵,张文泉,李忠明,戴长松,付定华.一种改性N,P共掺杂钛酸锂负极材料及其制备方法,专利号: ZL202010317842.5授权公告号:CN111403724B,授权公告日:2022.03.29

[14]伊廷锋,曲津朋,魏婷婷,王鹏飞.水系铵离子电池用类毛球状柏林绿电极材料的制备方法,专利号: ZL202210708214.9授权公告号:CN114873612B授权公告日:2023.07.14

指导研究生情况

截止到2023年2月,现指导博士研究生4人,硕士研究生15人,毕业25人,先后有16人19次获得国家奖学金[2011级陈宾、2013级杨双瑗(2次)、2014级武金珠、2014级房子魁、2015级梅洁、2015级陶伟、2016级李艳梅、2016级韩啸、2018级彭盼盼、2019级李莹(2次)、2019级魏婷婷(博士生,2次)、2020级常慧(博士生)、2020级李学忠、2020级史玲娜、2021级张楠、2021级赵钰燊]。

大道至简,实干为要。欢迎有材料学、化学、化工及物理学背景的同学攻读博士研究生、硕士研究生。

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