个人简介
Educational Background
♦ Ph.D, Physical Chemistry of Metallurgy, Northeastern University, Shenyang, China, March 2002, Tutor: Prof. Y.C. Zhai.
♦ M.S., Physical Chemistry of Metallurgy, Northeastern University, Shenyang, China, March 1999, Tutor: Prof. Y.C. Zhai.
♦ B.S., Physical Chemistry of Metallurgy, Northeastern University, Shenyang, China, June 1996.
Experience
♦ April 2002~Sept. 2004, Postdoctoral, Materials Science & Engineering, Xi’an Jiaotong University, Xi’an, China, Co-operation: Prof. X.P. Song.
♦ ISE (International Society of Electrochemistry) member.
Books
1. 赵铭姝,宋晓平,郑青阳, 高能量密度锂离子电池:材料、工程及应用, 机械工业出版社, ISBN: 978-7-111-37178-6, 北京: 2012年4月.
► 译著目录内容
(High Energy Density Lithium Batteries: Materials, Engineering, Applications, K.E. Aifantis, S.A. Hackney, R.V. Kumer, John Wiley & Sons, Inc, 2010)
2. 赵铭姝,宋晓平, 锂离子充电电池, 机械工业出版社, ISBN: 978-7-111-47058-8, 北京: 2014年.
(Lithium Ion Rechargeable Batteries, WILEY-VCH Verlag GmbH & Co. KGaA)
3.赵铭姝,宋晓平,《纳米科学与工程中的纳米结构化》,ISBN:978-7-111-48776-0,北京:机械工业出版社,
2015年1月,258千字.(原著为McGraw-Hill出版,译著为国际制造业先进技术译丛)
4.赵铭姝,郑青阳,《可替代能源:来源和系统》,ISBN:978-7-111-56484-3,北京:机械工业出版社,
2017年6月,345千字.(原著为CENGAGE Learning出版,译著为国际制造业先进技术译丛)(280页)
5.郑青阳,赵铭姝,《可替代能源揭秘》,ISBN:978-7-111-47842-3,北京:机械工业出版社,
2014年11月,296千字.(原著为McGraw-Hill出版,译著为国际制造业先进技术译丛)
6. 郑青阳,赵铭姝,《家庭中的再生能源:通往绿色生活的捷径》,ISBN:978-7-111-51851-0,北京:机械工业出版社,
2016年1月,144千字.(原著为McGraw-Hill出版,译著为国际制造业先进技术译丛)
7.郑青阳,赵铭姝,《可再生能源的电气技术》,ISBN:978-7-111-54588-0,北京:机械工业出版社,
2016年10月,405千字.(原著为McGraw-Hill出版,译著为国际制造业先进技术译丛)
Research Projects
• Under Projects
1. 国家自然科学基金资助项目青年科学基金(51302214), 2014.01~2016.12, 25万元
“水溶液锂离子电池中异常倍率特性的研究”, 在研.
2. 陕西省自然科学基金面上项目(2012JM6005), 2012.01~2013.12, 4万元
“磷酸锰锂型材料用于水溶液锂离子电池的嵌/脱锂机制研究”, 在研.
3. 西安交通大学基本科研业务费自由探索与自由创新类项目, 2013.01~2015.12, 2万元
“水溶液锂离子电池中异常倍率特性的研究”(支持国科基上会配套资金), 在研.
4. 西安交通大学基本科研业务费国际科技合作项目(2012jdh235), 2012.05~2014.05, 4万元
“水溶液电解液的性质对水锂电体系锂嵌脱过程的影响机制研究”, 在研.
5. 西安交通大学学科综合交叉类科研项目 (xjj2012095), 2012.01~2013.12, 10万元
“基因改良病毒制备新型动力用锂离子电池材料”, 在研.
6. 中央高校基本科研业务费重点实验室青年学术骨干培植项目
(SPCW006476), 2012.01~2013.12, 15万元,“多元嵌锂化合物的可控合成与电化学性能研究”
• Final Projects
1. 陕西省自然科学基金面上项目(2010JM6018), 2010.01~2011.12, 2万元
“添加非活性组元的Sn-Sb基三元合金嵌锂的可逆性研究”, 已结题.
2. 西安应用材料创新基金(XA-AM-200816), 2008.06~2010.06, 10万元
“新型储能电池水锂电体系的研究开发”, 已结题.
3. 西安市科技计划项目----工业应用技术研发项目(CXY1124 (2)), 2011.01~2012.12, 8万元
“介孔/多孔结构LiFePO4纳米材料的可控合成及其电化学性 能改性和应用研究”, 已结题.
4. 西安交通大学学科综合交叉类科研项目(2009xjtujc32), 2009.11~2011.11, 10万元
“新型储能体系水锂电的设计与研究”, 已结题.
5. “锂离子电池正极材料氧化锂铁磷的研究”, 西安凯航投资有限公司, (20100250)2010. 02~2013. 02, 横向课题, 6万元, 已结题
6. 高性能锂离子电池材料研发”, 西安荣华新材料股份有限公司2004.1~2009.1, 10 万元.
横向课题, 已结题.
7. 西安交通大学自然科学基金, 2002.10~2004.10, 1.5万元.
“新一代锂离子电池LiMn2O4型正极材料的合成、结构和性能研究”, 已结题.
8. 西安交通大学研究生创新专项基金, 2010.9~2013.6, 0.488万元.
“电沉积法制备锂离子电池负极材料纳米结构铜基二元合金的研究”
9. 中国博士后科学基金, 2003.04~2004.04, 1万元,
“固相分段法合成纳米锰酸锂型电池材料的研究”, 已结题.
10. 东北大学博士学位论文资助计划资助项目, 2000.12~2002.03, 3万元.
“锂离子电池正极材料锰酸锂的制备研究”, 已结题.
♦ Issued Patents
1. 赵铭姝,宋晓平,张汉元,磷酸铁镁锂组装水溶液锂离子电池体系的方法,2015.9.28,中国,ZL
201310073063.5。
2.赵铭姝,宋晓平,张维刚,一种钒酸钠组装水溶液锂离子电池体系的方法,2015.8.5,中
国,ZL201310168319.0。
3. 赵铭姝, 宋晓平, 黄官亮,汪飞,
磷酸锰铁锂组装水溶液锂离子电池的方法,
ZL201210072575.5, 2014.03.12授权.
4. 赵铭姝, 宋晓平, 汪飞,
单晶锰酸锂纳米线制备无机水溶液锂离子电池体系的方法,
ZL201110082821.0, 2013.07.15授权.
5. 赵铭姝, 汪飞, 宋晓平, 尧刚,
制备锂离子电池负极材料纳米级泡沫二氧化锡的方法,
ZL201010170953.4, 2012.06.06授权.
6. 赵铭姝, 汪飞, 郑青阳, 覃玉锋, 许敏炜, 宋晓平,
一种制备锂离子电池负极材料锡锑银合金纳米粒子的方法,
ZL 200910023985.9, 2012.02.29授权.
7. 赵铭姝, 郑青阳, 汪飞, 代维民, 彭坤, 宋晓平,
一种无机水溶液锂离子电池体系的制备方法,
ZL 200910023978.9, 2011.08.31授权.
8. 赵铭姝, 汪飞, 郑青阳, 覃玉锋, 许敏炜, 宋晓平,
一种制备锂离子电池用的锡锑铁合金纳米粒子的方法,
ZL 200910023975.5, 2011.08.31授权.
9. 赵铭姝, 郑青阳, 汪飞, 张珩, 宋晓平,
一种制备掺镁的锰镍酸锂正极材料的固相合成法,
ZL 200910023989.7, 2011.06.01授权.
10. 孙占波, 宋晓平, 赵铭姝,
铝基三元合金作为锂离子电池负极材料的应用,
ZL 200910021921.7, 2011.06.22授权.
♦ Applied Patents
1. 赵铭姝,钱鹏,宋晓平,刘钊钧
片状钒酸钾材料组装环保水溶液锂离子电池体系的方法, 201610147254.5
2. 赵铭姝,梁苗苗,郑青阳,宋晓平
基于泡沫镍模板构筑NiCo2S4@Ni(OH)2@PPy材料用于超级电容器的方法, 201810032192.2,2018年1月12日.
Honour
1. 陕西省第十二届自然科学优秀学术论文二等奖, 陕西省教育厅授奖,
“新型能源材料的微观结构调控及其物理化学性能研究”第1获奖人,2018年3月.
2. 陕西省第十三届自然科学优秀学术论文三等奖, 陕西省人民政府授奖,
赵铭姝, 黄官亮,张宝,汪飞,宋晓平, “Characteristics and electrochemical performance of LiFe0.5Mn0.5PO4/C used as cathode for aqueous rechargeable lithium battery, J. Power Sources, 2013, 211: 202-207”,2017年3月,2017133065.
3. 陕西省第十二届自然科学优秀学术论文二等奖, 陕西省人民政府授奖,
赵铭姝, 宋晓平, 汪飞, 代维民, 卢学刚, "Electrochemical performance of single crystalline spinel LiMn2O4 nanowires in a saturated aqueous LiNO3 solution", 2013年3月.
4. 陕西省第十一届自然科学优秀学术论文二等奖, 陕西省人民政府授奖,
赵铭姝, 宋晓平, “Synthesizing kinetics and characteristics for spinel LiMn2O4 with the precursor using as lithium-ion battery cathode material”(20102046),10/15/2010.
5. 陕西省高等学校科技技术一等奖, 陕西省教育厅授奖, 第5获奖人,
“非平衡态功能材料微观组织控制及其应用”, 2014, 2.
6. 2002年获东北大学校级优秀博士学位论文,“锂离子电池正极材料LiMn2O4及其相关材料的制备与理论研究(200205), 2012
近期论文
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English Papers
2018
1. Miaomiao Liang, Mingshu Zhao* , Haiyang Wang, Junfang Shen and Xiaoping Song, Enhanced cycling stability of hierarchical NiCo2S4@Ni(OH)2@PPy core–shell nanotube arrays for aqueous asymmetric supercapacitors, J. Mater. Chem. A, 2018, 6, 2482.
2. Miaomiao Liang, Mingshu Zhao*, Haiyang Wang, Fei Wang, Xiaoping Song, Excellent cycling stabilities of a novel calliandra-like Co3O4 acted as anode materials for the lithium-ion battery, Journal of Energy Storage 17 (2018) 311-317.
2017
1. W. Duan, M.S. Zhao*, J.F. Shen, S.X. Zhao, X. Song. Superior lithium-ion insertion/ extractionproperties of a novel LiFePO4/C/grapheme material used as a cathode in aqueous solution. Dalton Trans., 2017, 46: 12019-12026. SCI: FH5RC, IF: 4.177, Ⅱ区. WOS:000411224500006;ISSN:1477-9226
2. M.S. Zhao*, W. Zhang, X. Song. The lithium-ion storage properties of mircro/nano-sheet-like shape NaV6O15 materials used as the anode in the aqueous solution. Dalton Trans., 2017, 46: 3857-3863. SCI: EQ2FE, IF: 4.177, Ⅱ区.
2016
1. F. Wang, H. Jiao, E. He, S. Yang, Y. Chen, M.S. Zhao, X.P. Song. Facile synthesis of ultrafine SnO2 nanoparticles embedded in carbon networks as a high-performance anode for lithium-ion batteries. J. Power Sources, 2016, 326: 78-83. SCI: DU6QD, IF: 6.333.
2015
1. M.S. Zhao*, G. Huang, F. Qu, F. Wang*, X. Song, Electrochemical performances of (LiMn0.6Fe0.4PO4/C) //LiV3O8 in different aqueous solution electrolyte, Electrochimica Acta, 151 (2015) 50-55. SCI: AX31H, IF: 4.504,Ⅰ区.
2. F. Wang, D. Chen, W. Wang, Y. Wang, M.S. Zhao, S.C. Yang, X.G. Lu, X.P. Song. In situ sodium chloride template synthesis of cobalt oxide hollow octahedra for lithium-ion batteries. RSC Advances, 2015, 5: 23326-23330. SCI: CD6YD, IF: 3.289.
3. W. Li, L. Xin, X. Xu, Q. Liu, M. Zhang, S. Ding, M.S. Zhao, X.J. Lou. Facile synthesis of three-dimensional structured carbon fiber- NiCo2O4-Ni(OH)2 high-performance electrode for pseudocapacitors. Sci. Reports, 2015, 5: 9277 (1-6). SCI: CD7MR, IF: 5.228.
2014
1. M. Zhao*, G. Huang, F. Qu, F. Wang*, X. Song, Electrochemical performances of (LiMn0.6Fe0.4PO4/C)// LiV3O8 in
different aqueous solution electrolyte, Electrochim. Acta, 2014, DOI information:10.1016/j.electacta.2014.10.148.
2. M. Zhao*, W. Zhang, F. Qu, F. Wang*, X. Song,Good discharge capacities of NaV6O15 material for an aqueous rechargeable lithium battery, Electrochim. Acta, 2014, 138, 187-192. (IF: 3.853)
2013
1. M. Zhao*, B. Zhang, G. Huang, H. Zhang, X. Song, Excellent rate capabilities of (LiFePO4/C)//LiV3O8 in an optimized aqueous aqueous solution electrolyte, J. Power Source, 2013, 232, 181-186. (IF: 4.951)
2. M. Zhao*, G. Huang, W. Zhang, H. Zhang, X. Song, Electrochemical behaviors of LiMn1-xFexPO4/C cathode materials in an aqueous electrolyte with/without dissolved oxygen, Energy & Fuels, 2013, 27: 1162-1167. (SCI: 096VD) (IF: 2.721)
2012
1. M. Zhao*, G. Huang, B. Zhang, F. Wang, X. Song, Characteristics and electrochemical performance of LiFe0.5Mn0.5PO4/C used as cathode for aqueous rechargeable lithium battery, J. Power Source, 2012, 211, 202-207.(SCI: 960CF) (IF: 4.951)
2. M. Zhao*, B. Zhang, G. Huang, W Dai, F. Wang, X. Song, Electrochemical performance of modified LiMn2O4 used as cathode material for an aqueous rechargeable lithium battery, Energy & Fuels, 2012, 26 (2): 1214-1219. (SCI: 892GQ) (IF: 2.721)
3. F. Wang*, X. Song, G. Yao, M. Zhao*, R. Liu, M. Xu, Z. Sun, Carbon-coated mesoporous SnO2 nanospheres as anode material for lithium ion batteries, Scripta Materialia, 2012, 66 (8) : 562-565. (SCI: 912QY) (IF: 3.072)
2011
4. M. Zhao*, X. Song, F. Wang, W. Dai, X. Lu. Electrochemical performance of single crystalline spinel LiMn2O4 nanowires in a saturated aqueous LiNO3 solution, Electrochim. Acta, 2011, 56 (16): 5673-5678. (IF: 3.853)
5. M. Zhao*, Q. Zheng, F. Wang, W. Dai, X. Song. Electrochemical performance of high specific capacity of lithium-ion cell LiV3O8//LiMn2O4 with LiNO3 aqueous solution electrolyte, 2011, Electrochim. Acta, 56 (11) 3781-3784. (IF: 3.853)
6. F. Wang, G. Yao, M. Xu, M. Zhao*, Z. Sun, X. Song, Large-scale synthesis of macroporous SnO2 with/without carbon and their application as anode materials for lithium-ion batteries, Journal of Alloys and Compound 509 (20) 5969-5973, 2011.05 (SCI: 749JU)
7. F. Wang, G. Yao, M. Xu, M. Zhao* , P. Zhang, X. Song, Ag-Sb composite prepared by chemical reduction method as new anode materials for lithium-ion batteries, Materials Science and Engineering B 176 (5): 442-445, 2011.03 (SCI: 752BF)
8. M. Xu, F. Wang, M. Zhao, S. Yang, X. Song, Molten hydroxides synthesis of hierarchical cobalt oxide nanostructure and itsapplication as anode material for lithium ion batteries, Electrochimica Acta, 2011, 56 (13): 4876-4881. (IF: 3.853)
9. F. Wang, W. Tao, M. Zhao, M. Xu, S. Yang, Z. Sun, L. Wang, X. Song, Controlled synthesis of uniform ultrafine CuO nanowires as anode material for lithium-ion batteries, J. Alloys and Compounds, 2011, 509 (41) : 9798-9803. (IF: 2.134)
10. M. Xu, F. Wang, M. Zhao, S. Yang, Z. Sun, X. Song, Synthesis of copper oxide nanostructures via a composite-Hydroxide-mediated approach: Morphology control and the electrochemical performances as anode material for lithium ion batteries, Physica E -Low-Dimensional Systems & Nanostructures, 2011, 44 (2) : 506-510. (SCI: )
2010
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11. M. Zhao* , Q. Zheng, F. Wang, Y. Qin, X. Song. Nano-sized SnSbAgx alloy anodes prepared by reductive co-precipitation method used as lithium-ion battery materials, J. Nanosci. Nanotech., 2010, 10 (11) : 7025-7030. (SCI: 672XP) (IF:2.037)
12. M. Xu, M. Zhao, F. Wang, W. Guan, S. Yang, X. Song, Facile synthesis and electrochemical properties of porous SnO2 micro-tubes as anode material for lithium-ion battery, Materials Letters, 2010, 64 (8) : 921-923. (SCI: 576IS)
2009
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13. F. Wang, M. Zhao, X. Song, The improved electrochemical performance of SnSb-based alloy anode materials for Li-ion batteries, J. Alloys and Compounds, 2009, 472 (1-2) : 55-58. (427CK) (IF: 2.134)
14. R. Yang, X.Song, M.Zhao, Characteristics of Li0.98Cu0.01FePO4 prepared from improved co-precipitation, J. Alloys and Compounds, 2009, 468 (1-2): 365-369. (IF: 2.134)
2008
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15. Z. Sun, X. Li, X. Wang, Q. Hu, M. Zhao, Y. Zhu, Y. Li, X. Song, Melt-spun Al70-x Si30Mnx (x = 0, 3, 5, 7, 10) anode in lithium-ion batteries, Science in China Series E-Technology Science, 2009, 52 (8) : 2288-2294. (SCI: 465ND)
16. F. Wang, M. Zhao, X. Song, Nano-sized SnSbCux alloy anodes prepared by co-precipitation for Li-ion batteries, J. Power Source, 2008, 175 (1) : 558-563. (SCI: 253IY) (IF: 4.951)
17. Z. Sun, X. Wang, X. Li, M.Zhao, Y. Li, Y. Zhu, X. Song, Electrochemical properties of melt-spun Al-Si-Mn alloy anodes for lithium-ion batteries, J. Power Source, 2008, 182 (1) : 353-358. (SCI: 326FA) (IF: 4.951)
2007
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18. M. Zhao*, X. Song, Synthesizing kinetics and characteristics for spinel LiMn2O4 with the precursor using as lithium-ion battery cathode material, J. Power Source, 2007, 164 (2) : 822-828. (SCI: 138 JS) (IF: 4.951)
19. F. Wang, M. Zhao, X. Song, Influence of the preparation conditions on the morphology and electrochemical performance of nano-sized Cu-Sn alloy anodes, J. Alloys and Compounds, 2007, 439 (1-2) : 249-253. (SCI: 180RL) (IF: 2.134)
20. R. Yang, M. Zhao, B. Du, X. Song, Z. Sun, Synthesis of cathode material LiFePO4 for rechargeable lithium-ion battery by co-precipitation method, Rare Metal Materials and Engineering, 2007, 36 (supl. 2) : 631-634. (SCI: 230ZL)
21. Z. Liu, L. Kang, M. Zhao, K. Ooi, Preparation, ion-exchange, and electrochemical behavior of Cs-type manganese oxides with a novel hexagonal-like morphology, J. Materials Research, 2007, 22(9) : 2437-2447. (206GA)
22. R. Yang, X. Song, X. Pang, M. Zhao, F. Wang, Fine-particle lithium iron phosho-olivine synthesized by a novel modified solid-state reaction, High-Performance Ceramics IV, Pts 1-3, Key Engineering Materials, 2007, 336-338, Part 1-3, 524-525. (SCI: BGD27 )
2004~2002
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23. M. Zhao*, X. Song, Preparation and characterization of LiMn1.5Me0.5 (Me = Ti, Fe, Ni, Zn) for lithium-ion battery cathode materials, Transactions of Nonferrous Metals Society of China, 2004, 14 (4): 811-816. (SCI: 851EC, EI: 2004498706428)
24. Zhao Ming Shu*, Zhai Yu Chun, Tian Yan Wen, Study on kinetics of synthesizing spinel LiMn2O4 for lithium-ion battery cathode, Acta Physico-Chimica Sinica, 2002 (02) : 92-96.
♦ Chinese Papers
2011~2010
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1. ZHAO Ming-shu*, WANG Fei, YAO Gang, XU Min-wei, SONG Xiao-ping, Research progress of SnO2 anode materials for Li-ion batteries, Chinese Journal of Power Sources, 2011, 35 (10) : 1296-1298.
2. ZHAO Ming-shu*, WANG Fei, JING Guang-hui, QIN Yu-feng, SONG Xiao-ping, Review on the synthesis of LiFePO4 using as lithium battery cathode materials, Metallurgy Engineering and Material Science, 2010 (2) : 5-10.
3. ZHAO Ming-shu*, WANG Fei, QIN Yu-feng, XU Ming-wei, JING Guang-hui, SONG Xiao-ping, Preparation Research about Anodic Materials Composed of Alloy/Metal and Carbon in Lithium-ion Batteries, Metallurgy Engineering and Material Science, 2010 (2) : 17-20.
4. ZHAO Ming-shu*, DAI Wei-min, WANG Fei, SONG Xiao-ping, Research progress in manganese-bearing materials for Li-ion battery using aqueous solution, Battery, 2010, 40 (6) : 47-49.
2002~2006
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5. YANG Rong, ZHAO Mingshu, ZHAO Qing, MA Hongli, SONG Xiaoping, Improvement of electrochemical performance of LiFePO4 cathode materials for lithium-ion battery, Journal of Chemical Industry and Engineering(China), 2006, 57 (3) 208-211. (被引频次:13次)
6. LI Feng, ZHAO Ming-shu, SONG Xiao-ping, Research progress in Ni-doped spinel LiMn2O4, Battery, 2006, 36 (1): 83-84. (被引频次:8次)
7. YANG Rong, SONG Xiao-ping, YAO Bing-hua, WANG Fei, ZHAO Ming-shu, Research on co-precipitation synthesis and Mn2+ doping of cathode materials-LiFePO4, Journal of Xi’an University of Technology, 2006, 22 (1) : 85-87. (被引频次:5 次)
8. ZHAO Ming-shu*, WANG Fei, SONG Xiao-ping, Synthesizing kinetics and characteristics of LiMnCoO4 using as lithium-ion battery cathode material, The Chinese Journal of Nonferrous Metals, 2005, 15 (9) : 84-90. (被引频次:11次)
9. WANG Fei, ZHAO Ming-shu, SONG Xiao-ping, Research progress in tin-based negative electrode materials for Li-ion batteries, Battery, 2005, 35 (2) : 72-74. (被引频次:14次)
10. YANG Rong, ZHAO Ming-shu, WANG Fei, SONG Xiao-ping, Development of LiFePO4 as cathode material of Li-ion battery, Battery, 2004, 34 (6) : 72-73. (被引频次: 13次)
11. ZHAO Ming-shu*, Wang Fei, SONG Xiao-ping, Progress on Tin-based anode materials for lithium-ion battery, Materials Review, 2004, 18 (z2) : 255-258.
12. ZHAO Ming-shu*, SONG Xiao-ping, ZHAI Yu-chun, TIAN Yan-wen, Characteristics and active energy for the precursor of lithium manganese oxides, The Chinese Journal of Process Engineering, 2003, 3 (1) : 30-34. (被引频次:8次)
13. ZHAO Ming shu*, ZHAI Yu chun, TIAN Yan wen, Advanced preparation techniques of lithium manganese oxide cathode plates for Li-ion battery, Battery, 2002, 32 (5) : 30-31. (被引频次:2次)
14. ZHAO Ming-shu*, ZHAI Yu-chun, TIAN Yan-wen, Preparation and characterization of LiMn1.75Me0.25O4 (Me=Ti, Fe, Ni) for lithium-ion battery cathode material, The Chinese Journal of Nonferrous Metals, 2002, 12 (4) : 114-119. (被引频次:5次)
2002~1998
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15. ZHAO Mingshu*, ZHAI Yuchun, TIAN Yanwen, Effects of additives on characteristics of spinel lithium manganese oxide, Materials Review, 2002, 16 (3) : 72-74. (被引频次:6次)
16. ZHANC Guo- fan, ZHAO Ming-shu, ZHAI Yu-chun, TIAN Yan-wen, Dynamic Study of Spinel LiMn2O4 Synthesis at Oxygen Atmosphere, Journal of Northeastern University (Natural Science) 2001, 22, 22 (4): 439-442. (EI)
17. ZHAO Ming-shu*, ZHAI Yu-chun, TIAN Yan-wen, Preparation of LiMn2O4 lithium-ion battery cathode material by the multiple sinter method, The Chinese Journal of Process Engineering, 2001, 1 (4) : 67-72. (被引频次:40次)
18. ZHAO Ming-shu*, ZHANG Guo-fan, ZHAI Yu-chun, TIAN Yan-wen, Preparation of spinel-structure lithium manganese oxides, the positive materials for lithium-ion battery, Chinese Journal of Power Sources, 2001, 25 (3) : 52-56. (被引频次:34次)
19. ZHAO Mingshu*, ZHAI Yuchun, Growth mechanism of aluminum borate whisker, Engineering Chemistry & Metallurgy, 1998, 19 (4): 78-82. (被引频次:13次)
20. Zhao Mingshu*, Zhai, Yuchun, TianYanwen, The technique of alumina borate whisker with high-temperature solvent method, Material Science and Technology, 1998, 6 (3) : 82-84. (被引频次:11次)
♦ Conference
1. Zhao Mingshu*, Yao gang, Wang Fei, Qin Yufeng, Song Xiaoping, Tian Baozhi, Preparation and electrochemical performance of Sn-Sb-Fe alloy anode used as the material of lithium ion battery, Low carbon Shaani Conference, 10/28/2010, Xi’an, China.
2. ZHAO Ming-shu*, ZHANG Heng, JING Guang-hui, QIN Yu-feng, WANG Fei, SONG Xiao-ping, Characterization and electrochemical properties of LiMn1.5Ni0.43Mg0.07O4 cathode materials using as lithium ion batteries, The national function materials science and technology and industry top BBS, Oct. 2008, TianJin, China.
3. YANG Rong, ZHAO Ming-shu, TIAN Ping, SONG Xiao-ping, Synthesis of cathode material LiFePO4 for rechargeable lithium-ion battery by sol-slurry method, Chinese Chemical 25th Conference, July 2006, JiLin China.
4. Zhao Mingshu*, Wang Fei, Song Xiaoping, Synthesizing kinetics and characteristics of LiMnNiO4 using as lithium-ion battery cathode material, Chinese Materials International Conference, Sep. 2004, BeiJing China.
5. ZHAO Ming-shu*, SONG Xiaoping, ZHAI Yuchun, TIAN Yanwen, Preparation and Electrochemical of LiMn1.5Me0.5O4(Me=Cr、Co、Cu)used as the cathode materials for lithium ion battery, Chinese Materials International Conference, Sep. 2002, BeiJing China.
6. ZHAO Ming-shu*, ZHAI Yuchun, TIAN Yanwen, Study on the preparation of SrxPb1-xTiO3 ultrafine by oxalic acid co-precipitation, Metallurgical Process Physical Chemistry Academic Meeting, 10/01/1998, ShangHai, China
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