徐立强

4

  • 教授 博士生导师 硕士生导师
  • 性别:男
  • 毕业院校:中国科学技术大学
  • 学历:博士研究生毕业
  • 学位:博士生
  • 在职信息:在职
  • 所在单位:化学与化工学院
  • 入职时间: 2005-07-16
  • 学科:无机化学
  • 办公地点:山东大学中心校区化学与化工学院老晶体北楼306室
  • 联系方式:微信号:LiQiang-Xu;QQ号:137665615 山东大学中心校区 邮箱:xulq@sdu.edu.cn; 137665615@qq.com

访问量:

开通时间:2019.10.9

最后更新时间:2019.10.9

个人简介

徐立强,理学博士授、博士生导师,中国化学会高级会员

联系方式: 微信号:LiQiang-Xu电话13969153600; QQ号:137665615   山东大学中心校区

 邮箱:xulq@sdu.edu.cn;  137665615@qq.com

Research ID: Liqiang Xu                Twitter ID:Liqiang Xu1



【主讲课程】

本科生专业限选课 《结晶化学》

研究生无机化学专业必修课 《结晶化学》

本科生课程 《新生研讨课》

本科生课程 《走进“锂”想世界》

本科生课程 《从“锂”到“钠”的创新之路》(稷下创新)

本科生全校选修课 《锂电池的创新与创业》(齐鲁创业)

无机化学博士研究生专业课《无机化学前沿领域概论》

本科生国家精品课程 《无机及分析化学实验》

本科生课程 《医学基础化学实验》


【主编教材/专著】


  1. 本科生教材 《高比能二次电池原理与应用》,山东大学出版社


 2.Electrode Materials in Energy Storage Technologies: Applications in Lithium-, Sodium-, Potassium-, Sulfur- and Zinc-Based Rechargeable Batteries, Wiley出版社, 2024.

  



研究领域与兴趣】


 本人近年来一直致力于新型高性能碱金属二次电池、锂硫二次电池正负极等相关电极材料的新颖制备方法探索、结构与性能调控及其实际应用等;相关研究属无机合成与制备化学、纳米材料、电化学, 晶体结构与性能及器件等交叉学科的前沿研究领域。在上述相关研究领域目前已在Chemical Society Reviews., Progress in Materials Science., Angew. Chem. Int. Ed., Adv. Mater., ACS NanoAdv. Energy. Mater., Energy Storage Materials, Nano Today, ACS Energy Lett, Chem. Mater.Nano Research 等发表SCI收录论文130余篇并获邀撰写综述论文及封面论文多篇,相关论文已被他引9000余次; H-index 54;获授权国家发明专利16项;2020年和2023年先后获山东省自然科学贰等奖2项


【拟招收研究生情况】


每年拟招聘博士后及访问学者若干名, 具体待遇面谈;每年拟招收化学、材料、电化学等方向的硕士研究生1-2名,博士研究生1-2名。毕业生适合于在科研院校(所)或相关企业工作;同时欢迎各年级本科生加入我们的研究团队!


近期在研/结题科研项目】


1. 国家自然科学基金面上项目,阳离子掺杂型锂硫二次电池催化剂设计及其性能提升规律研究, No.22371167, 2024年1月-2027年12月项目负责人,50万


2. 国家自然科学基金面上项目,No.22071135, 基于多级结构的高性能多孔复合材料的可控制备、充放电机理及其构效关系研究2021年1月-2024年12月项目负责人,63万


3. 山东省自然科学基金重大基础研究项目,No. ZR2022ZD29,高性能碱金属-硫电池的研发及其应用基础研究,2023年1月-2025年12月,项目负责人,100万。


4. 国家自然科学基金面上项目,No. U1832187, 过渡金属硼化物纳米材料的可控合成及其在锂硫电池中的应用”,2019.01-2021.12, 项目负责人, 54万

5. 山东省自然科学基金项目,No. ZR2019MEM030, 新型高性能无机功能材料的结构设计及其在室温钠硫二次电池中的应用, 2019.07-2022.06, 项目负责人, 20万



【科研成果及获奖情况】


2020年山东省自然科学贰等奖 (第一完成人)1项


2020年度山东大学优秀博士学位论文指导奖1项


2021年电力行业设备管理与技术创新成果技术类一等奖1项 


山东高等学校优秀科研成果自然科学类贰等奖”2项 (第一完成人)


指导本科生创新实验获“山东大学大学生科技创新基金立项项目一等奖”1项


指导本科生创新实验获  “山东大学首届“新安集团杯”大学生化学与物质科学创新创业大赛”金奖1项


指导本科生创新实验获  “第九届山东大学“互联网+”创新创业大赛金奖1项


指导本科生创新实验获  “2023产业融合发展—新工科创新大赛”华东赛区一等奖1项


指导本科生创新实验获 2023年 “建行杯-山东省第九届“互联网+”大学生创新创业大赛金奖1项


指导本科生创新实验获 2023年 “中国国际大学生创新大赛(大学生高教主赛道金奖1项


2023年山东省自然科学贰等奖 1项  (第三完成人)


2024年中国设备管理协会一等奖("新型高性能碱金属离子二次电池关键材料的研发与应用", 第一完成人)


2024年度化学与化工学院优秀教师、山东大学优秀教师四有好老师)提名奖


导本科生创新实验获2024年 第十四届“挑战杯”山东省大学生创业计划竞赛金奖


指导本科生创新实验2024年第十四届“挑战杯”中国大学生创业计划竞赛银奖1项



学术团体兼职】


 中国化学会高级会员、英国皇家化学会会士(RSC Fellow)


 山东大学杰出中青年学者、济南市院士专家基层服务工作站专家、山东省高层次人才


 中国设备管理协会“碳达峰碳中和专业委员会专家库专家


Green Energy and Resources( 绿色能源与资源青年编委


Nano-Micro Letters青年编委  

 

《Materials Reports: Energy(MRE)编委


 

【主要论著】


【2024】

1. Manipulating atomic-coupling in dual-cavity boride nanoreactor to achieve hierarchical catalytic engineering for sulfur cathodeBin Wang, Lu Wang, Muhammad Mamoor, Chang Wang, Yanjun Zhai, Fengbo Wang, Zhongxin Jing, Guangmeng Qu, Yueyue Kong, and Liqiang Xu,*Angew. Chem. Int. Ed., 2024, 63, e202406065https://onlinelibrary.wiley.com/doi/10.1002/ange.202406065

https://doi.org/10.1002/anie.202406065


2. Hierarchical mesoporous N-doped carbon as efficient ORR/OER bifunctional electrocatalyst for rechargeable zinc-air battery, Ping Li, Jinghong Wen, Yang Xiang, Meiqi Li, Yunxiu Zhao, Suna Wang, Jianmin Dou, Yunwu Li,* Huiyan Ma,* and Liqiang Xu,Inorganic Chemistry Frontiers., 2024, Accept. DOI:10.1039/D4QI00637B

3. Co/MoN invigorated bilateral kinetics modulation for advanced Lithium–sulfur batteries,Yueyue Kong (硕士生), Lu Wang, Muhammad Mamoor, Bin Wang, Guangmeng Qu, Zhongxin Jing, Yingping Pang, Fengbo Wang, Xiaofan Yang, Dedong Wang, Liqiang Xu* Advanced  Materials,  2024, 36, 2310143.

https://doi.org/10.1002/adma.202310143

https://onlinelibrary.wiley.com/doi/10.1002/adma.202310143

4. Heterostructure interface construction of Cobalt/Molybdenum selenides toward ultra-stable sodium-ion half/full batteriesJunhui Li, Yanyan He*, Yuxin Dai, Haozhe Zhang, Yixuan Zhang, Shaonan Gu*, Xiao Wang, Tingting Gao, Guowei Zhou*, Liqiang Xu,*Advanced Functional Materials, 2024, 2406915; https://onlinelibrary.wiley.com/doi/10.1002/adfm.202406915;    https://doi.org/10.1002/adfm.202406915.

5.Anionic chemistry modulation enabled environmental self-charging aqueous Zinc batteries: The case of carbonate ions, Guangmeng Qu, Lu Wang, Yongzheng Zhao, Dedong Wang, Xixi Zhang, Bin Wang , Fengbo Wang, Zhongxin Jing, Xijin Xu, Liqiang Xu*, Hongfei Li,*Angew. Chem. Int. Ed., 202463, e202409774;  

https://onlinelibrary.wiley.com/doi/10.1002/ange.202409774

https://doi.org/10.1002/ange.202409774

https://mp.weixin.qq.com/s/eCnjTiEYSELrXKufJcilYQ 


6Controllable growth of crystal facets enables superb cycling stability of anode material for potassium ion batteries, Lu Wang, Yi Li, Bin Wang, Zhongxin Jing, Ming Chen, Yanjun Zhai, Zhen Kong, Sikandar Iqbal, Suyuan Zeng, Xiuping Sun, Yanpeng Chen, Jianmin Dou, and Liqiang Xu,Advanced Functional Materials2024, 2406988;

https://doi.org/10.1002/adfm.202406988;  https://onlinelibrary.wiley.com/doi/10.1002/adfm.202406988


7. Bimetallic sulfide hollow nanocubes heterostructure promotes dual coupling of conversion and alloying/dealloying reactions to achieve durable potassium-ion battery anodeSikandar Iqbal, Lu Wang, Zhen Kong, Yanjun Zhai, Xiuping Sun,Ming Chen, Fengbo Wang, Zhongxin Jing, Xiyu He, Liqiang Xu,*Small, 2024,DOI: 10.1002/smll.202404194


8. 2D Se-rich ZnSe/CoSe2@C heterostructured composite as ultrastable anodes for alkaline-ion batteries, Sikandar Iqbal, Lu Wang, Zhen Kong, Yanjun Zhai, Fengbo Wang, Zhongxin Jing, Xiuping Sun, Bin Wang, Xiyu He, Jianmin Dou, Liqiang Xu,*Small2024 240419;  https://doi.org/10.1002/smll.202404193https://onlinelibrary.wiley.com/doi/10.1002/smll.202404193


9. Cognate cobalt core-shell structure decorated nitrogen-doped hollow carbon bowls triggering advanced Zinc-air battery, Fengbo Wang, Lu Wang, Bin Wang, Zhongxin Jing, Dong Ding, Xiaofan Yang, Yueyue Kong, Jianmin Dou, Muhammad Mamoor, Liqiang Xu,*Advanced Functional Materials, 2024,  2415326.

https://doi.org/10.1002/adfm.202415326

10. In situ electrochemical evolution of amorphous metallic borides enabling long cycling room-/subzero-temperature sodium-sulfur batteries, Bin Wang, Lu Wang, Beining Guo (本科生), Yueyue Kong, Fengbo Wang, Zhongxin Jing, Guangmeng Qu, Muhammad Mamoor, Dedong Wang, Xiyu He, Lingtong Kong, Liqiang Xu,*Advanced  Materials,  2024, 2411725; https://doi.org/10.1002/adma.202411725



2023】

1. "A “Pre-division metal clusters” strategy to mediate efficient dual-active sites ORR catalyst for ultralong rechargeable Zn-air battery, Yun-Xiu Zhao, Jing-Hong Wen, Ping Li, Peng-Fang Zhang, Su-Na Wang,Da-Cheng Li, Jian-Min Dou, Yun-Wu Li,* Hui-Yan Ma,* and Liqiang Xu,* Angew. Chem. Int. Ed., 2023, 62(11), e202216950;[被他引15次]; https://doi.org/10.1002/anie.202216950



2. When nitrogen reduction meets single-atom catalysts, Yingping Pang, Chao Su,*, Liqiang Xu,* Zongping Shao,*  Progress in Materials Science, 2023, 132, 101044; IF: 48.165[被他引14次]


3.Hafnium Diboride Spherical Superstructure Born of 5d-Metal Hf-MOF  Induced p Orbital Activity of B Atom and Enhanced Kinetics of Sulfur Cathode ReactionBin Wang, Lu Wang, Yueyue Kong, Fengbo Wang, Zhongxin Jing, Xiaofan Yang, Yitai Qian, Ming Chen, Liqiang Xu,* Advanced Energy Materials, 2023, 13(22), 202300590.[被他引3次]


4. A general “In Situ Etch-Adsorption-Phosphatization” strategy for the fabrication of metal phosphides/hollow carbon composite for high performance liquid/flexible Zn–air batteries, Xiaofan Yang, Fengbo Wang, Zhongxin Jing, Ming Chen, Bin Wang, Lu Wang, Guangmeng Qu, Yueyue Kong, and Liqiang Xu*, Small, 2023,19(38), 2301985.[被他引2次]


5.Thin carbon layer covered Co4N cubes encapsulated in N-doped porous carbon nanocage as tri-functional catalysts with enhanced chargetransfer efficiency for Zn-air battery and overall water-splittingGuanghui Zhang, Lingxue Zhao, Guangda Li* and Liqiang Xu*, J. Mater. Chem. A, 2023, 11, 11712–11720. [被他引2次]


6.Recent Progess on Advanced High Energy Electrode Materials for Sodium ion BatteriesMuhammad Mamoor, Yi Li(本科生), Lu Wang, Zhongxin Jing, Bin Wang, Guangmeng Qu, Lingtong Kong(本科生), Yiyao Li(本科生), Zaiping Guo* and Liqiang Xu*, Green Energy and Resources 2023, 1, 100033; https://doi.org/10.1016/j.gerr.2023.100033


7.SnSe2/NiSe2@N-Doped Carbon Yolk-Shell Heterostructure Construction and Selenium Vacancies Engineering for Ultrastable Sodium-Ion StorageHuan Li, Yanyan He, Qian Wang, Shaonan Gu, Lu Wang, Juxin Yu, Guowei Zhou, Liqiang XuAdvanced Energy Materials,  2023, 13(47), 202302901.[被他引3次]




【2022】



1. Zinc-assisted Cobalt-ditelluride polyhedra inducing lattice strain to endow efficient adsorption-catalysis for high-energy Lithium-sulfur batteries, Bin Wang, Lu Wang, Dong Ding, Yanjun Zhai, Fengbo Wang, Zhongxin Jing, Xiaofan Yang, Yueyue Kong, Yitai Qian, Liqiang Xu*Advanced Materials, 2022, 34(50), , 202204403.[被他引75次]


2.Manipulating Electrocatalytic Polysulfide Redox Kinetics by 1D Core-Shell Like Composite for Lithium-Sulfur Batteries, Chuanchuan Li, Weini Ge, Siyun Qi, Lin Zhu, Renzhi Huang, Mingwen Zhao, Yitai Qian and Liqiang Xu,* Advanced Energy Materials, 2022,12(16), 2103915.[被他引56次]


3. Niobium Diboride Nanoparticles Accelerating Polysulfide Conversion and Directing Li2S Nucleation Enabled High Areal Capacity LithiumSulfur Batteries,Bin Wang, Lu Wang, Bo Zhang, Suyuan Zeng, Fang Tian, Jianmin Dou, Yitai Qian, Liqiang Xu*ACS Nano, 2022, 16(3), 4947-4960; https://doi.org/10.1021/acsnano.2c01179;[被他引125次;ESI 高被引论文]


4. Ultrafine zirconium boride nanoparticles constructed bidirectional catalyst for ultrafast and long-lived lithium-sulfur batteries, Bin Wang, Lu Wang, Bo Zhang, Zhen Kong, Suyuan Zeng, Mingwen Zhao, Yitai Qian, Liqiang Xu,Energy Storage Materials, 2022, 45, 130-141; [被他引29次]

https://www.sciencedirect.com/science/article/pii/S2405829721005560

Highlighted by 能源学人微信公众号.


5. Petroleum coke derived porous carbon/NiCoP with efficient reviving catalytic and adsorptive activity as sulfur host for high performance lithium-sulfur batteries, Bo Zhang, Lu Wang, Bin Wang, Yanjun Zhai, Shuyuan Zeng, Meng Zhang, Yitai Qian,Liqiang Xu*, Nano Research, 2022,15(5):4058-4067.[被他引8次] https://doi.org/10.1007/s12274-021-3996-5.


6. Space-confied growth of Bi2Se3 nanosheets encapsulated in N-doped carbon shell lollipop-like composite for full/half potassium-ion and lithium-ion batteries, Xiuping Sun, Bo Zhang, Ming Chen, Lu Wang, Debao Wang, Ruxia Man, Sikandar iqbal, Fang Tian, Yitai Qian and Liqiang Xu*, Nano Today, 2022,40, 101408.[被他引22次]

https://authors.elsevier.com/tracking/article/details.do?aid=101408&jid=NANTOD&surname=Xu


7. Iron selenide-based heterojunction construction and defect engineering for fast Potassium/Sodium-ion storage, Zhen Kong, Lu Wang, Sikandar Iqbal, Bo Zhang, Bin Wang, Jianmin Dou, Fengbo Wang, Yitai Qian, Meng Zhang, and Liqiang Xu,*Small 2022, 18(15), 2107252.[被他引36次]



8. In Situ Growth of CoS2/ZnS Nanoparticles on Graphene Sheets as an Ultralong Cycling Stability Anode for Potassium Ion Storage, Sikandar Iqbal, Lu Wang, Zhen Kong, Yanjun Zhai, Xiuping Sun, Fengbo Wang, Zhongxin Jing, Xiyu He, Jianmin Dou, Liqiang Xu,*ACS Applied Materials & Interfaces, 2022, 14, 15324–15336.[被他引32次]


9. Preferential growth of HT-LiCo1-xAlxO2 cathode micro-bricks via an intermediate-facilitated solid-solid-gas reaction, Chunhui Wang, Shuangshuang Zhao, Wei Shen, Xiaoming Xi, Lishan Yang*, Lixiong Bai, Yahui Yang*, Chenghuan Huang, Jian Zhu, Youyuan Zhou, Yitai Qian, Zhongliang Tian, Yanqing Lai, Liqiang Xu*, Journal of Power Sources 2022, 542, 231700.


10. Flexible Mg3N2 layer regulates lithium plating-striping for stable and high capacity lithium metal anodes, Dong Ding, Bo Zhang, Lu Wang, Jianmin Dou, Yanjun Zhai, and Liqiang Xu*Nano Research, 2022,15,8128–8135; https://doi.org/10.1007/s12274-022-4516-y[被他引10次]


11. Rational design of tungsten selenide @ N-doped Carbon nanotube for high-stable potassium-ion batteries, Xiaoxia Chen, Haliya Muheiyati, Xiuping Sun, Pan Zhou, Peican Wang, Xuyang Ding,Yitai Qian, and Liqiang Xu*Small 2022, 18, 2104363.[被他引24次]


【2021】


1. In-situ nano-crystallization and solvation modulation promoting highly stable anode involving alloy/de-alloy for Potassium ion batteries,Lu Wang; Bo Zhang; Bin Wang; Suyuan Zeng; Mingwen Zhao; Xiuping Sun; Yanjun Zhai; Liqiang Xu*,Angew. Chem. Int. Ed. 2021, 60(28), ,15381-15389[被他引53次];      

https://doi.org/10.1002/anie.202100654

https://onlinelibrary.wiley.com/doi/10.1002/anie.202100654

Hot Paper

Highlighted as the frontispiece at the beginning of the Research Article section

网站报道:https://mp.weixin.qq.com/s/DPCVr6VTBDV9pQQJ-EYiBg


2. Emerging Two-Dimensional Nanomaterials for Electrochemical Nitrogen Reduction, Yingping Pang, Chao Su,Guohua Jia, Liqiang Xu* and Zongping Shao,*Chemical Society Reviews., 2021, 50,12744-12787.[被他引18次]

论文链接https://pubs.rsc.org/en/content/articlelanding/2021/cs/d1cs00120e


3. Bimetallic nickel cobalt sulfides with   hierarchical coralliform architecture for ultrafast and stable Na-ion storage, Yanyan He, Caifu Dong, Sijia He, Huan Li, Xiuping Sun, Yuan Cheng, Guowei Zhou*, Liqiang Xu*, Nano Res. 2021, 14, 4014–4024; https://link.springer.com/article/10.1007/s12274-021-3328-9; 封面论文 [被他引55次]


4. Phosphorus-modified Fe4N@N, P Co-doped graphene as efficient Sulfur host for high-performance Lithium-Sulfur batteries, Meng Zhang, Lu Wang, Bin Wang, Bo Zhang,  Xiuping Sun,  Debao Wang, Zhen Kong,  Liqiang Xu,*Journal of Materials Chemistry A, 2021, 9, 6538 - 6546.[被他引41次]http://pubs.rsc.org/en/content/articlelanding/2021/TA/D0TA12361G#!divAbstract


5. Dandelion-like Bi2S3/rGO hierarchical microspheres as high-performance anodes for Potassium-ion and half/full Sodium-ion batteries, Xiuping Sun, Lu Wang, Chuanchuan Li, Debao Wang, Iqbal Sikandar, Ruxia Man, Fang Tian, Yitai Qian and Liqiang Xu*, Nano Res2021, 4696-4703 http://www.thenanoresearch.com/upload/justPDF/3407.pdf[被他引39次]


6. Yolk-Shell Structured CoSe2/C Nanospheres as Multifunctional Anode Materials for Both Full/Half Sodium-Ion and Full/Half Potassium-Ion Batteries,Xiuping Sun, Ruxia Man, Lu Wang, Bo Zhang, Fang Tian, Yitai Qian and Liqiang Xu*,Nanoscale, 2021, 13,10385. [被他引45次]


7. Construction and electrochemical mechanism investigation of hierarchical core-shell like composite as high performance anode for Potassium ion batteries,  Nadeem Hussain, Suyuan Zeng, Zhenyu Feng, Yanjun Zhai, Chunsheng Wang,Mingwen Zhao*,Yitai Qian, Liqiang Xu*, Nano Res. 2021, 14  (10)  , 3552-3561; [被他引25次];Dedicated to Prof. Yitai Qian'80 th Birthday


8. Regulating polysulfide intermediates by ultrathin Co-Bi nanosheet electrocatalyst in lithium−sulfur batteries,Chuanchuan Li, Siyun Qi, Lin Zhu , Ya Zhao, Renzhi Huang, Yanyan He, Weini Ge, Xiaobiao Liu, Mingwen Zhao*, Liqiang Xu*, Yitai Qian, Nano Today, 2021,40, 101246; https://www.sciencedirect.com/science/article/pii/S1748013221001717?via%3Dihub.[被他引38次]

9. A porous polycrystalline NiCo2Px as highly efficient host for sulfur cathode of Li-S batteries, Lu Wang, Meng Zhang, Bo Zhang, Bin Wang, Jianmin Dou, Zhen Kong, Chunsheng Wang, Xiuping Sun, Yitai Qian,a Liqiang Xu,*Journal of Materials Chemistry A, 2021, 9  (40)  , 23149-23156.[被他引22次]

10. The Rational Design of Tungsten Selenide @ N-doped Carbon nanotube for High-Stable Potassium-ion Batteries, Xiaoxia Chen, Haliya Muheiyati, Xiuping Sun, Pan Zhou, Peican Wang, Xuyang Ding, Yitai Qian, Liqiang Xu,*Small, 2021, 2104363.[被他引7次]


11. Phosphorus-modified Fe4N@N,P co-doped graphene as an efficient sulfur host for high-performance lithium-sulfur batteries,Meng Zhang, Lu Wang, BinWang, Bo Zhang, Xiuping Sun, Debao Wang, Zhen, Zhen, Liqiang Xu,*Journal of Materials Chemistry A, 2021,  9  (10)  , 6538-6546.[被他引36次].


【2020】


1. Rational fabrication of CoS2/Co4S3@N-doped carbon microspheres as excellent cycling performance anode for half/full sodium ion batteries, Caifu DongLijun GuoHaibo LiBo ZhangXue GaoFang TianYitai QianDebao Wang, Liqiang Xu,*Energy Storage Materials, 2020, 25, 679-686.[被他引129次]


2.Conductive cobalt doped niobium nitride porous spheres as an efficient polysulfide convertor for advanced lithium-sulfur batteries, Weini Ge, Lu Wang, Chuanchuan Li, Chunsheng Wang, Debao Wang,Yitai Qian and Liqiang Xu,*J. Mater. Chem. A, 2020, 8, 6276–6282.[被他引59次]


3.Co4N nanoparticles encapsulated in N-doped carbon box as tri-functional catalyst for Zn-air battery and overall water splittingHuaiyun Ge, Guangda Li*, Jianxing Shen, Wenqing Ma, Xiangeng Meng*, Liqiang Xu*Applied Catalysis B: Environmental2020,175,119104.[被他引185次; ESI 高被引论文]


4.Willow leaf-like ZnSe@N-Doped carbon nanoarchitecture as a stable and high-performance anode material for sodium-ion and potassium-ion batteries,  Caifu Dong, Leqiang Wu, Yanyan He, Yanli Zhou, Xiuping Sun, Wei Du, Xueqin Sun, Liqiang Xu*, Fuyi Jiang*, Small, 2020, 16(47), 2004580.[被他引130次]

WeChat link by materialsviewschinahttps://mp.weixin.qq.com/s/3Kk8FIxEbQfxZ9-Zt1bJGA


5. Fe-MOF derived efficient ORR/OER bifunctional electrocatalyst for rechargeable Zinc-air battery,    Yun-Wu Li, Wen-Jie Zhang, Jing Li, Hui-Yan Ma, Hong-Mei Du, Da-Cheng Li, Su-Na Wang,* Jin-Sheng Zhao,* Jian-Min Dou, Liqiang Xu*, ACS Appl. Mater. Interfaces, 2020, 12(40), 44710-44719.[被他引162次]


6. Ultrahigh areal capacity battery anodes enabled by freestanding vanadium nitride@N-doped carbon/graphene architecture, Chuanchuan Li, Lin Zhu, Siyun Qi,  Weini Ge, WenZhe Ma, * Ya Zhao,   Renzhi, Huang, Liqiang Xu,*  Yian, Yitai, ACS Appl. Mater. Interfaces, 2020,12(44), 49607-49616.[被他引28次]


【2019】

     

1. Double-Shelled Ni−Fe−P/N-Doped Carbon Nanobox Derived from a Prussian Blue Analogue as an Electrode Material for K‑Ion Batteries and Li−S Batteries. Xiaoxia Chen, Suyuan Zeng, Haliya Muheiyati, YanJun Zhai, Chuanchuan Li, Xuyang Ding, Lu Wang, Debao Wang,  Liqiang Xu*, ACS Energy Lett. 2019, 4, 1496-1504;Highlighted by 能源学人微信公众号.[被他引139次]



2. In-situ rooting ZnSe/N-doped hollow carbon architectures as high-rate and long-life anode materials for half/full sodium-ion and potassium-ion batteries, Yanyan He, Lu Wang, Caifu Dong, Chuanchuan Li, Xuyang Ding, Yitai Qian, Liqiang Xu*Energy Storage Materials, 2019, 23, 35-45. Highlighted by 能源学人微信公众号.[被他引206次]


3. Ultrathin mesoporous F-doped a-Ni(OH)nanosheets as an efficient electrode material for water splitting and supercapacitors,Nadeem Hussain,Wenjuan Yang, Jianmin Dou,Yanan Chen*, Yitai Qian, Liqiang Xu*J. Mater. Chem. A, 2019, 7, 9656–9664[被他引84次].


4. Coral-like NixCo 1-x Se2 for Na-ion battery with ultralong cycle life and ultrahigh rate capability, Yanyan He, Ming Luo, Caifu Dong, Xuyang Ding,Chaochuang Yin, Anmin Nie,Yanan Chen* ,Yitai Qian, Liqiang Xu*J. Mater. Chem. A, 2019, 7, 3933–3940.[被他引87次].


5. Hierarchical flower-like cobalt phosphosulfide derived from Prussian blue analogue as an efficient polysulfides adsorbent for long-life lithium–sulfur batteries. Xiaoxia Chen, Xuyang Ding, Haliya Muheiyati  , Zhenyu Feng, Liqiang Xu* , Weini Ge, and Yitai Qian, Nano Res. 2019, 12(5), 1115–1120.[被他引25次]


6. Porous honeycomb-like C3N4/rGO composite as host for high performance Li-S batteries. Xiaomeng Bai, Chunsheng Wang, Caifu Dong , Chuanchuan Li , Yanjun Zhai , Weiwei Si and Liqiang Xu*Science China Materials.2019, 62, 1265-1274.[被他引16次]


7. Enteromorpha prolifera-derived Fe3C/C composite as advanced catalyst for hydroxyl radical generation and efficient removal for organic dye and antibiotic,Wei Huang,Feng Wang,Xiaoxia Wu,Chuansheng Zang,Aihua Li*, Liqiang Xu*, Journal of Hazardous Materials,2019, 378, 120728.[被他引18次]


8. Hollow sphere formation by the self aggregation of perovskite fluoride NaNiF3 nanocrystals and the application of these spheres as an electrode in an ultrahigh performance asymmetric supercapacitor,Nadeem Hussain,a Fangfang Wu,c Waqar Younasd and Liqiang Xu*, New J. Chem.  2019,43, 11959-11967.  [被他引14次]


9.  Co0.85Se hollow spheres constructed of ultrathin 2D mesoporous nanosheets as a novel bifunctional-electrode  for supercapacitor and water splitting,Nadeem Hussain, Fangfang Wu, Liqiang Xu*, Yitai QianNano Res2019, 12(12):2941-2946.[被他引26次]


【2018】


1. NiS1.03 Hollow Spheres and Cages as SuperhighRate Capacity and Stable Anode Materials for Half/Full SIBs,Caifu Dong, Jianwen Liang, Yanyan He, Chuanchuan Li, Xiaoxia Chen, Lijun Guo, Fang Tian, Yitai Qian, Liqiang Xu*, ACS Nano, 2018, 12, 8277−8287;Highlighted by 能源学人微信公众号[被他引128次].


2.  Sandwich-like Ni2P Nanoarray/Nitrogen-Doped Graphene Nanoarchitecture as a High-PerformanceAnode for Sodium and Lithium Ion Batteries, Caifu Dong, Lijun Guo, Yanyan He, Yitai Qian*, Yanan Chen*, and Liqiang Xu*, Energy Storage Materials, 2018, 15, 234–241. Highlighted by 能源学人微信公众号;[被他引191次].


3.  Ultrafine Co1-xS nanoparticles embedded in nitrogen doped porous carbon hollow  nanospherecomposite as anode for superb Sodium-Ion Batteries and Lithium Ion Batteries, Caifu Dong, Lijun Guo, Yanyan He, Limei Shang, Yitai Qian*, and Liqiang Xu*, Nanoscale, 2018, 10 (6), 2804-2811[被他引66次].


4. Conductive and Polar Titanium Boride as New Sulfur Host for Advanced Lithium-Sulfur Batteries, Chuanchuan Li, Xiaobiao Liu, Lin Zhu, Renzhi Huang, Mingwen Zhao*, Liqiang Xu*, Chemistry of Materials, 2018, 30, 6969-6977[被他引110次].


5. Titanium nitride hollow nanospheres with strong lithium polysulfide chemisorption as sulfur hosts for advanced lithium−sulfur batteries,Chuanchuan Li, Jingjing Shi,Lin Zhu,Yingyue Zhao, Jun Lu*, and Liqiang Xu*, Nano Research 2018, 11(8), 4302-4312[被他引90次].

 

6. Multifunctional vanadium nitride@N-doped carbon composites for kineticallyenhanced lithium–sulfur batteries, Lin Zhu, Chuanchuan Li, Wenjiao Ren, Mingyang Qin and Liqiang Xu*, New J. Chem. 2018,  42, 5109--5116 [被他引32次].


7.Cobalt-doped vanadium nitride yolk-shell nanospheres @ carbon with physical and chemical synergistic effect for advanced Li-S batteries, Wenjiao Ren, Liqiang Xu*, LinZhu, Xinye Wang, Xiaojian Ma, Debao Wang, ACS Appl. Mater. Interfaces2018, 10(14), 11642–11651[被他引104次].


8. Mesoporous Mn-Sn bimetallic oxide nanocubes as long cycle life anodes for Li-ion half/fullcells and sulfur hosts for Li-S batteries, Yanyan He, Liqiang Xu,* Chuanchuan Li, Xiaoxia Chen,Gang Xu, Xiaoyun Jiao, Nano Research.2018, 11(7), 3555-3566;Highlightedby 能源学人微信公众号[被他引32次].


9. A Multi-Shelled CoP Nanospheres Modified Separatorfor Highly Efficient Li-S Batteries, Xiaoxia Chen, Xuyang Ding, Chunsheng Wang, Zhenyu Feng, Liqiang Xu,* Xue Gao,Yanjun Zhai, Debao Wang,  Nanoscale, 2018, 10, 13694 – 13701[被他引124次].


10.  Horsetail-derived Si@N-dopedcarbonas low-costand long cycle life anode for Li-ion half/full cells,Yanyan He, Gang Xu, Chunsheng Wang,Liqiang Xu,* and Kun Zhang,  Electrochimica Acta 2018, 264, 173-182[被他引67次].



2017】



[1] MIL-100(V) and MIL-100(V)/rGO with various valence states of vanadium ions as sulfur cathode hosts for lithium-sulfur batteries, Yaping Hou, Hongzhi Mao and Liqiang Xu*, Nano Research 2017, 10(1), 344–353[被他引89次].


[2] Porous organic polymer/RGO composite as high performance cathode for half and full sodium ion batteries, Aihua Li, Zhenyu Feng Yan Sun, Limei Shang, LiqiangXu*, Journalof Power Sources, 2017, 343, 424-430[被他引52次].


[3] General fabrication of Boride, Carbide, and Nitride nanocrystals via a Metal-Hydrolysis-Assisted process, Ling Zhou, Lishan Yang,* Li Shao,Bo Chen, Fanhui Meng,Yitai Qian and Liqiang Xu*Inorg. Chem, 201756(5), 2440-2447.[被他引16次]


[4] Cobalt- and Cadmium-based Metal–Organic frameworks as high-performance anodes for Sodium Ion Batteries and Lithium Ion Batteries, Caifu Dong and Liqiang Xu*, ACS Appl. Mater. Interfaces, 20179,7160−7168[被他引146次] .


[5] NaFeTiO4 nanorod/multi-walled carbon nanotube composite as anode material for sodium-ion batteries with high performances in both half and full cells, Xuan Hou, ChuanchuanLi, Huayun Xu*, Liqiang Xu*, Nano Research, 2017,10(10), 3585-3595.[被他引11次]


[6] Mesoporous Tin-based Oxide nanospheres and graphene composites as advanced anodes for Lithium Ion Half/Full and Sodium Ion   Batteries, Yanyan He, Aihua Li, Caifu Dong,Chuanchuan Li, and Liqiang Xu*,  Chemistry - A European Journal, 2017, 23 (55),13724-13733[被他引51次].


[7] A novel polyoxometalate-based hybrid containing 2D [CoMo8O26] structure as anode forlithium-ion batteries, Xiaoxia Chen, Zhi Wang,   Ranran Zhang,  Liqiang Xu*and Di Sun*, Chem. Commun., 2017, 53(76),10560-10563[被他引65次].



2016】



[1]  Mesh-like LiZnBO3/Ccomposites as a prominent stable anode for lithium ion rechargeable batteriesAihua Li, Liqiang Xu*, Chang Ming Li* and Yitai QianJournal of Materials Chemistry  A, 20164,5489-5494.


[2] Solvothermal preparation of tin phosphide as a long-life Anode for advanced Lithiumand Sodium Ion Batteries,Shuling Liu*, Hongzhe Zhang, Liqiang Xu*, Lanbing Ma, and Xiaoxia Chen, Journal of Power Sources, 2016304, 346-353;[被他引123次].


[3] Fabrication of various V2O5 hollow microspheres as excellentcathode for lithiumstorage and the application in full cellsXiaochuan Ren, Yanjun Zhai, Lin zhu, Yanyan He, Aihua Li, Chunli Guo and Liqiang Xu, ACS Appl. Mater.Interfaces, 2016,  817205-17211[被他引46次].


[4] Ce-doped α-FeOOH nanorods as high-performance anode material for energy storage,Yanjun Zhai, Liqiang Xu* and Yitai Qian*, Journal of Power Sources, 2016327423-431.2015[被他引33次].


【2015】


[1] Mn-doped α-FeOOH nanorods and α-Fe2O3 mesoporous nanorods: Facilesynthesis andapplicationsas high performance anodes for LIBsYanjun Zhai,  Xiaojian Ma, Hongzhi Mao, Weiwei Shao, Liqiang Xu,* Yanyan He and Yitai QianAdvanced Electronic Materials20151,1400057;[被他引60次].


[2] A  hexangularring–core NiCo2O4 porous nanosheet /NiO nanoparticle composite as an advanced anode material for LIBs and catalyst for CO oxidation applicationsYanyan He, LiqiangXu,* Yanjun Zhai, Aihua Li and Xiaoxia Chen, Chemical Communications2015, 51, 14768 - 14771[被他引25次].


[3] Fabrication of hierarchicalporous MnCo2O4 and CoMn2O4 microspheres that are composed of polyhedralnanoparticles as promising anodes for long-life LIBs, Guangda Li, Liqiang Xu,*YanjunZhaiand Yaping Hou, Journal of Materials Chemistry A, 2015,  3, 14298 - 14306[被他引146次].


[4] Facile fabrication of hierarchical porousrose-like NiCo2O4 nanoflake/MnCo2O4 nanoparticle composite with enhanced electrochemical performance forenergy storage,Yanjun Zhai, Hongzhi Mao, Peng Liu, Xiaochuan Ren, Liqiang Xu,* and Yitai Qian, Journal of Materials Chemistry A, 2015, 2015,3,16142 - 16149[被他引108次].


[5] One dimensional manganese borate hydroxide nanorods and corresponding manganese oxyborate nanorods as promising anodes for lithium ion batteries, Aihua Li, LiqiangXu*, ShouliLi, Yanyan He, Ranran Zhang and Yanjun Zhai, Nano Research 2015,8(2): 554–565[被他引27次].


[6] Facile Synthesis of Hierarchical Mesoporous Honeycomb-like NiO for Aqueous Asymmetric Supercapacitors, Xiaochuan Ren, Chunli Guo*, Liqinag Xu, Taotao, Li, Lifeng Hou, Yinghui Wei, ACS Appl. Mater. Interfaces, 2015, 7(36), 19330-19940[被他引164次].



【2014】


[1] Facile synthesis ofone-dimensional Mn3O4/Zn2SnO4 hybridcomposites and their high performance as anodes for LIBs, Ranran Zhang, Yanyan He, Aihua Li, Liqiang Xu*,Nanoscale 2014, 6, 14221-14226; Featured as Back Cover[被他引251次].


[2] Controllable synthesis of hierarchical ZnSn(OH)6 and Zn2SnO4 hollow nanospheresandtheir applications as anodes for lithium ion batteriesRanran Zhang,Yanyan He and Liqiang Xu*, Journal of Materials Chemistry A 2014, 2,17979-17985[被他引34次].


[3] Hierarchical porous metal ferriteball-in-ball hollow spheres: general synthesis, formation mechanisms and highperformances as anode materials for Li-ion batteries; Shouli Li, Aihua Li,Ranran Zhang, Yanyan He, Yanjun Zhai, Liqiang Xu*, Nano Research 2014,7(8)1116-1127[被他引72次].


【2013年之前的部分代表性工作】


[1] In-situ controllable synthesisand performance investigation of carbon-coated monoclinic and hexagonalLiMnBO3 composites as cathode materials in lithium-ion batteriesShouliLi, Liqiang Xu*,GuangdaLi, Meng Wang, Yanjun Zhai; Journal of Power Sources 201323654-60[被他引40次].

[2] Synthesis, properties andapplications of nanoscale nitrides, borides and carbidesLiqiang Xu*, Shouli Li, Yuxu Zhang,Yanjun  Zhai; Nanoscale 20124 (16)4900-4915.Feature Review Article[被他引43次].

[3] Branched mesoporous Mn3O4 nanorods: Facile synthesis and catalysis in the degradationof methyleneblueZhongchao Bai, Bo Sun, Na Fan,Zhicheng Ju, Menghua Li, LiqiangXu,* and Yitai Qian; Chemistry-A European Journal 2012, 18(17),5319-5324[被他引113次].

[4] Synthesis, characterization and application of carbon nanocages as anode materials for high-performance lithium-ion batteries, Guangda Li, Liqiang Xu*, Qin Hao, Meng Wang,  Yitai Qian, RSC Advances, 2012, 2(1), 284-291[被他引56次].   

[5]   High yield synthesis of novel boron nitride submicro-boxes and their photocatalytic application under visiblelight; Meng Wang, Menghua Li, Liqiang Xu,* Liancheng Wang,Zhicheng Ju, GuangdaLi and  Yitai Qian; Catalysis Science &Technology 2011,1,1159-1165.Featured as Front Cover[被他引55次].

[6] Nano-CuO coated LiCoO2: Synthesis, improved cycling stability and good performance at high rates, Qin Hao, Houyi Ma, Zhicheng Ju,   Guangda Li, Xiaowei Li, Liqiang Xu*, Yitai Qian Electrochimica Acta 2011, 56(25), 9027-9031  [被他引38次].   

[7] General synthesis of carbonnanocages and their adsorption of toxic compounds from cigarette smoke, GuangdaLi, Hongxiao Yu, Liqiang Xu,* Qiang Ma, Chao Chen, Qin Hao and Yitai Qian; Nanoscale 2011,38,3251-3257[被他引46次].

[8] Convenient synthesis and applications of gram scale boron nitride nanosheets,Liancheng Wang, Changhui Sun, Liqiang Xu,* and Yitai Qian; Catalysis Science &Technology 2011,1(7),1119-1123.[被他引43次].

[9] A versatile route for the convenient synthesis of rare-earth and alkaline-earth hexaborides at mild temperatures, Liancheng Wang, Liqinag Xu,*,Zhicheng Ju, Yitai Qian, CrystEngComm, 2010, 12(11), 3923-3928[被他引40次].

[10] Thermal-induced shapeevolution from uniform triangular to hexagonal r-BN nanoplates;Menghua Li,Liqiang Xu,* Changhui Sun, Zhicheng Ju, Yitai Qian, Journal of  Materials Chemistry 2009, 19, 8086-8091.Featured as Back Cover[被他引28次].

[11] A general route for the convenientsynthesis of crystalline hexagonal boron nitride micromesh at mild temperatureLiancheng Wang, Liqiang Xu,* Changhui Sun, Yitai Qian,*Journal of Materials Chemistry 2009,19,1989-1994[被他引38次].

[12] High-yield synthesis of rhombohedral BN triangular nanoplatesLiqiangXu, Jinhua Zhan*, Junqing Hu et al, Advanced Materials 2007,19, 2141-2144[被他引54次].

[13] In situ synthesis, magnetic property, and formation mechanism of Fe3O4 particles encapsulated in 1D bamboo-shaped carbon microtubes, Liqiang Xu, Jin Du, Peng Li, Yitai Qian*Journal of Physical Chemistry B, 2006, 110(9), 3871-3875[被他引34次].

[14] A novel route to hollow and solid carbon spheres, Liqiang Xu, Wanqun Zhang, Qing Yang, Yanwei Ding, Yitai Qian,*Carbon, 2005, 43(5), 1090-1092[被他引136次].

[15] Formation, characterization, and magnetic properties of Fe3O4 nanowires encapsulated in carbon microtubes, Liqiang Xu, Wanqun Zhang, Yanwei Ding, Yiya Peng, Shuyuan Zhang, Weichao Yu, Yitai Qian,*Journal of Physical Chemistry B, 2004, 108(30), 10859-10862[被他引110次].

[16] Large-scale growth and shape evolution of Cu2O cubes, Debao Wang, Maosong Mo, Dabin Yu, Liqiang Xu, Fanqing Li, Yitai Qian* Crystal. Growth& Design, 2003, 3, 717-720[被他引185次].

[17] A co-pyrolysis method to boron nitride nanotubes at relative low temperature, Liqiang Xu, Yiya Peng, Zhaoyu Meng, Weichao Yu, Shuyuan Zhang, Xianming Liu, Yitai Qian,*Chemistry of Materials, 2003, 15, 2675-2680[被他引90次].


近年来已获授权/申请的国家发明专利


专利一:
一种花球状 Bi2O2(OH)(NO3)材料及其制备方法与在钠/钾离子电池中的应用
专利申请号:2023105223486
发明人:李翼、徐立强;王璐,李奕垚、余和琳
专利申请日期:2023年5月10日


专利二:
一类金属酰基普鲁士蓝及其普适性酸辅助制备方法与在制备钠离子电池中的应用
发明人:徐立强,荆忠鑫,孔令通
专利申请号::2024102068939
申请日:2024 年02 月26 日


专利三:
一种高性能锂离子二次电池负极材料Si/C复合材料及其制备方法
知识产权的专利号:ZL 201710508925.0
获得时间:2020年3月16日
发明人:徐立强,侯璇

专利四:
一种用于锂硫电池化学诱捕多硫化物的硼化钛及其制备方法与应用,
获得时间:2019年10月22日
发明人:徐立强,李川川,朱琳, 黄仁智
知识产权的专利号:ZL201710711157.9

专利五:
一种氮掺杂碳包覆氮化钒电极材料及其制备方法与应用
知识产权的专利号:201710507961.5
发明人:徐立强;朱琳
获得时间:2020年2月21日

专利六:
一种高性能锂离子电池负极Si@N-C复合材料及其制备方法
知识产权的专利号:2017 10508917.6
发明人:徐立强;何妍妍;徐刚
获得时间:2019年10月


近年来参加的部分重要学术会议并做邀请报告

1)第二届丝路论坛:新能源与新材料会议,2024年8月3-6日,乌鲁木齐

2) 第三届洁净能源材料及技术国际会议, 2024年6月28-30日,重庆

3) 第九届超级电容器及电池关键材料学术会议,2024 年8 月 9-11 日,济南

4) 第13届国际华人无机化学研讨会 2023年8月28-30日,北京大学

5) 第二十一次全国电化学大会,2023年5月23日至25日, 大连

6) 第七届全国锂硫电池学术研讨会,2023年4月28日至30日,武汉

7) 中国化学会第33届学术年会”2023年6月17日至20日,青岛

教育经历

2012.5 -- 2013.6
新加坡南洋理工大学       Research Fellow

2000.9 -- 2005.7
中国科学技术大学       无机化学       博士生

1996.9 -- 2000.7
聊城大学       化学教育       理学学士学位

研究方向