山东大学化学与化工学院无机化学徐立强

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徐立强，籍贯山东省即墨市, 教授、博士生导师。多年来一直致力于新型高性能二次电池正负极电极材料、电催化及新型电化学超级电容器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。
联系方式: xulq@sdu.edu.cn;0531-88364543

【学习及工作经历】
2005年5月至今 山东大学化学与化工学院
2012年5月至2013年5月 新加坡南洋理工大学 Research Fellow
2005年于中国科技大学获理学博士学位
2000-2005年: 中国科技大学化学系无机化学专业硕博连读, 2004年获中科院院长奖,
1996-2000年: 聊城大学化学系, 2000年获理学学士学位
【主讲课程】
本科生专业课    《结晶化学》
研究生专业课    《结晶化学》
本科生课程     《无机及分析化学实验》
无机化学博士研究生专业课《无机化学前沿领域概论》
【研究领域和兴趣】
本人近年来一直致力于新型高性能钠离子、锂硫二次电池正负极电极材料及新型催化剂相关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Advanced Materials, Energy Storage Materials, Adv.Electron. Mater，Nano Research, J. Mater. Chem. A  等发表SCI收录论文80余篇并获邀撰写综述论文及封面论文多篇，相关论文已被他引近3000余次；获授权国家发明专利13项。


【科研项目】
1. 国家自然科学基金1项(No.21471091, 2015-2018年), 项目负责人。
2. 山东大学交叉学科基金（No. 2015JC007，2015-2017年),项目共同负责人。
已完成的科研项目：
1. 国家重点基础研究发展计划（973计划）项目1项（2010-2015年），学术骨干。
2. 国家自然科学基金1项(No.11179043, 2012-2014年), 项目负责人。
3. 山东中烟工业公司应用课题1项(2008-2013年), 项目负责人。
4. 国家自然科学基金1项(No. 20971079, 2010-2012年), 项目负责人。
5. 国家自然科学基金1项(No. 20701026, 2008.01-2008.12), 项目负责人。
6. 教育部博士点基金新青年教师基金1项（20070422046，2008-2010年) , 项目负责人。

【科研成果】
1. 获“山东高等学校优秀科研成果自然科学类贰等奖”2项
2. 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


【主要论著】
2018
1. Caifu Dong, Lijun Guo, YanyanHe, Limei Shang, Yitai Qian*,and Liqiang Xu*, Ultrafine Co1-xS
nanoparticles embedded in nitrogen doped porous carbon hollow nanosphere composite as anode for
superb Sodium-IonBatteries and Lithium Ion Batteries, Nanoscale, 2018, 10(6),2804-2811.
2. Yanyan He, Gang Xu, ChunshengWang, Liqiang Xu,* and Kun Zhang, Horsetail-derived Si@N-
doped carbon as low-cost and long cycle life anode for Li-ion half/full cells, ElectrochimicaActa 2018,264,
173-182.
3.Chuanchuan Li, Jingjing Shi,Lin Zhu,Yingyue Zhao, Jun Lu*, and Liqiang Xu*,Titanium nitride hollow
nanospheres with strong lithium polysulfide chemisorption as sulfur hosts for advanced lithium−sulfur batte
ries, Nano Research 2018, https://doi.org/10.1007/s12274-018-2017-9
4. LinZhu, Chuanchuan Li, Wenjiao Ren, Mingyang Qin and Liqiang Xu*, Multifunctional vanadium
nitride@N-doped carbon composites for kinetically enhanced lithium–sulfur batteries, New J. Chem.
2018, DOI:10.1039/C8NJ00125A
5. Wenjiao Ren, Liqiang Xu*, LinZhu, Xinye Wang, Xiaojian Ma, Debao Wang, Cobalt-
doped vanadium nitride yolk-shell nanospheres @ carbon with physical and chemical synergistic effect for
advanced Li-S batteries,  ACS Appl. Mater. Interfaces,2018，DOI:10.1021/acsami.7b18955
6.CaifuDong,Lijun Guo, Yanyan He, Yitai Qian*, Yanan Chen*,andLiqiang Xu*, Sandwich-like Ni2P
Nanoarray/Nitrogen-Doped Graphene Nanoarchitecture as a High-Performance Anode for Sodium and
Lithium Ion Batteries, Energy Storage Materials , https://doi.org/10.1016/j.ensm.2018.04.011.

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.
[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, Liqiang
Xu*, Journalof Power Sources, 2017, 343, 424-430.
[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, 2017，56(5), 2440-2447.
[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, 2017，9,7160−7168.
[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.
[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.
[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.
[8] Mesoporous Mn-Sn bimetallic oxide nanocubes as long cycle life anodes forLi-ion
half/full cells and sulfur hosts for Li-S batteries, Yanyan He, Liqiang Xu,*Chuanchuan Li,
Xiaoxia Chen, Gang Xu, Xiaoyun Jiao, Nano Research 2017, DOI,10.1007/s12274-017-
1921-8.Highlighted by 能源学人微信公众号。

2016
[1]  Aihua Li, Liqiang Xu*, Chang Ming Li* and Yitai Qian，Mesh-like LiZnBO3/C
composites as a prominent stable anode for lithium ion rechargeable batteries，Journal of Materials Chemistry  A, 2016，4,5489-5494.
[2] Solvothermal preparation of tin phosphide as a long-life Anode for advanced Lithium
and Sodium Ion Batteries,Shuling Liu*, Hongzhe Zhang, Liqiang Xu*, Lanbing Ma, and Xiaoxia Chen, Journal of Power Sources, 2016，304, 346-353.
[3]Fabrication of various V2O5 hollow microspheres as excellentcathode for lithium
storage and the application in full cells，Xiaochuan Ren, Yanjun Zhai, Lin zhu, Yanyan
He, Aihua Li, Chunli Guo and Liqiang Xu, ACS Appl. Mater. Interfaces, 2016,  8，
17205-17211.
[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, 2016，327，423-431.

2015
[1] Yanjun Zhai,  Xiaojian Ma, Hongzhi Mao, Weiwei Shao, Liqiang Xu,* Yanyan He and
Yitai Qian，Mn-doped α-FeOOH nanorods and α-Fe2O3 mesoporous nanorods: Facile
synthesis andapplicationsas high performance anodes for LIBs，Advanced Electronic Materials，2015，1,1400057.
[2] Yanyan He, LiqiangXu,* Yanjun Zhai, Aihua Li and Xiaoxia Chen, A  hexangularring–
core NiCo2O4 porous nanosheet /NiO nanoparticle composite as an advanced anode material for LIBs and catalyst for CO oxidation applications，Chemical Communications，2015, 51, 14768 - 14771.
[3] Guangda Li, Liqiang Xu,*YanjunZhaiand Yaping Hou, Fabrication of hierarchical
porous MnCo2O4 and CoMn2O4 microspheres that are composed of polyhedral
nanoparticles as promising anodes for long-life LIBs, Journal of Materials Chemistry A, 2015,  3, 14298 - 14306.
[4] Yanjun Zhai, Hongzhi Mao, Peng Liu, Xiaochuan Ren, Liqiang Xu,* and Yitai Qian,
Facile fabrication of hierarchical porousrose-like NiCo2O4 nanoflake/MnCo2O4
nanoparticle composite with enhanced electrochemical performance forenergy storage,
Journal of Materials Chemistry A, 2015, 2015,3,16142 - 16149.
[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.

【所获专利】
1.   一种高性能锂离子电池正极材料五氧化二钒空心微球及制备方法, ZL 201510595072.X
2. 高性能锂离子二次电池负极材料多级结构纳米空心球的制备方法, ZL 201410268637.9
3.  一种高性能锂离子电池负极材料Mn2OBO3的制备方法, ZL 201410163758.7
4.一种高性能锂离子电池正极材料LIMBO3@c复合材料的制备方法, ZL 201410119464.4
5. 锂离子电池正极材料原位碳包覆硼酸锰锂复合材料的制备方
6. 固相反应低温合成六硼化镧纳米粉体的方法，ZL 200910014675.0
7. 一种高比表面积超薄氮化硼纳米片的制备方法，ZL 201010251304.7
8.一种可吸附烟草中有害成分的碳纳米空心格子的制备方法，ZL 201010297365.7
9.一种稀土六硼化物纳米超细粉体的制备方法，ZL 201010502217.4