技术支持
Technical Support
Location:Chinese Academy of Sciences > Technical Support  > Reference Reference

1. Technology
We are one member of National Center for Nanoscience and Technology, China. Supported by the President Foundation of the Chinese Academy of Sciences, the Key Items of Knowledge Innovation Program of Chinese Academy of Sciences(Crand No. KJCX1-06-04 and KJCX2-YW-M01), the National High Technology Research and Development Program of China (No. 2002AA302615, 863 Program), the National Basic Research Program of China (Grand No. 2006CB932703) for carbon nanotubes synthesis and application research.
Since 1996, we have done a lot of research and development work in the carbon nanotubes synthesis and application, developed a scalable CVD method. We can provide a series of CNTs with purity more than 95%, even than 99.9%, dispersed CNTs paste, CNTs Conductive Additive for Lithium Ion Battery, metal coated CNTs and so on.


2015 year

1、
Wen Li, Mianzhong Chen, Jinjin Jiang, Rui Wu, Feng Wang, Wenjing Liu, Gongchang Peng, Meizhen Qu, Structural and electrochemical characteristics of SiO2 modified Li4Ti5O12 as anode for lithium-ion batteries, Journal of Alloys and Compounds, 2015, 637, 476~482;

2Xiang Li, Zhengwei Xie, Wenjing Liu, Wujie Ge, Hao Wang, Meizhen Qu. Effects of fluorine doping on structure, surface chemistry, and electrochemical performance of LiNi0.8Co0.15Al0.05O2, Electrochimica Acta, 2015,174, 1122~1130;

2014 year

1、Jingxian ZhangZhengwei XieWen LiShaoqiang DongMeizhen Qu, high-capacity graphene oxide/graphite/carbon nanotube composites for use in Li-ion battery anodes, Carbon, 2014, 74, 153~162;

2、Wen Li, Xing Li, Mianzhong Chen, Zhengwei Xie, Jingxian Zhang, Shaoqiang Dong, Meizhen Qu. AlF3 modification to suppress the gas generation of Li4Ti5O12 anode battery. Electrochimica Acta2014, 139,104~110;

3、Zhengwei Xie; Xiang Li; Wen Li; Mianzhong Chen; Meizhen Qu, Graphene oxide/lithium titanate composite with binder-free as high capacity anode material for lithium-ion batteries, Journal of Power Sources, 2015273, 754-760

4、石香蓉,张静娴,刘佳鸿,孙静,浓硫酸掺杂的单壁碳纳米管透明膜的制备及其导电性能,合成化201422(4)554~557;

5、Xing Li, Ying Zhou, Pengxiao Huang, Hui Peng, Wen Li, Meizhen Qu, Zuolong Yu, In Situ Synthesis of Nanosized Li4Ti5O12/Graphene/carbon Nano-Tubes Hybrid Materials for High Rate Rechargeable Lithium Ion BatteriesInternational Journal of Elecrochemical Science, 2014, 9, 4816-4825; 

6、Xing Li, Pengxiao Huang, Hui Peng, Ying Zhou, Wen Li, Meizhen Qu, Study on the Improvement of Rate Capability of Spinel Li4Ti5O12 with Graphene/Carbon Nanotubes Binary Conductive Additive, International Journal of Elecrochemical Science,2014, 9,6258~6265; 

7、Xing Li, Shuihua Tang, Meizhen Qu, Pengxiao Huang , Wen Li , Zuolong YuA novel spherically porous Zr-doped spinel lithium titanate(Li4Ti5-xZrxO12) for high rate lithium ion batteries, Journal of Alloys and Compounds, 2014, 588, 17~24; 

8、Xing Li, Pengxiao Huang, Ying Zhou, Hui Peng , Wen Li , Meizhen Qu , Zuolong Yu, A novel Li4Ti5O12/graphene/carbon nano-tubes hybrid material for high rate lithium ion batteries, Materials Letters, 2014, 133, 289~292;

2013 year
1、Jingxian Zhang, Huaqiang Cao, Xiaolin Tang, Weifeng Fan, Gongchang Peng, Meizhen Qu, Graphite/graphene oxide composite as high capacity and binder-free anode material for lithium ion batteries J. Power Sources. 2013, 241, 619-626.;
2、Jinjin Jiang, Xiaolin Tang, Rui Wu, Haoqiang Lin, Meizhen Qu, Electrochemical performance of polygonized carbon nanofibers as anode materials for lithium-ion batteries, Particuology, 2013, 11, 401– 408; 
3、熊高虎,刘佳鸿,孙静。碳纳米管/环氧树脂复合材料的静电自组装制备及性能,高分子材料科学与工程,2013,29(1),136-9;
4、唐小淋,瞿美臻,张静娴,姜锦锦,董少强,Fe/MgO催化裂解甲烷制备碳纳米带,合成化学,2013,21(5),534-537,542;
5、李星,唐水花,瞿美臻,于作龙,黄鹏肖,康毅力,尖晶石型钛酸锂负极材料的研究现状,合成化学,2013,21(1),119-123;
6、李星,唐水花,瞿美臻,关小旭,康毅力,锂离子电池正极材料LiNi1/3Co1/3Mn1/3O2的研究现状,合成化学,21(2),251-256;
7、Jingxian Zhang, Meizhen Qu, Graphene oxide/graphite/carbon nanotubes composite with large capacity for liyhium ion batteries. The 10th Cross-Strait Workshop on Nanoscience and Nanotechnology, Hulunbeier, August 9-14, 2013. P90.

2012 year

1、Jiang, Jin-Jin; Qu, Mei-Zhen; Zhou, Gu-Min; Huang, Xiao-Bing; Shao, Jin. Synthesis of carbon nanofibers with a     polygonal cross section by the catalytic decomposition of C2H2 over bi-metal catalysts. 2012, 50(1), 323-25. 
2、孙静,刘佳鸿,熊高虎,瞿美臻。碳纳米管填料静电自组装制备及在导电塑料中的应用,塑料工业,2012,40 (1),90-94;
3、Huaqiang Cao, Baojun Li, Jingxian Zhang, Fang Lian, Xianghua Kong and Meizhen Qu. Synthesis and superior anode  performance of TiO2@reduced graphene oxide nanocomposites for lithium ion batteries, J. Mater. Chem., 2012, 22, 9759-66. 
4、Baojun Li, Huaqiang Cao, Jingxian Zhang, Meizhen Qu, Fang Lian and Xianghua Kong. SnO2-carbon- RGO heterogeneous electrode materials with enhanced anode performances in lithium ion batteries. J. Mater. Chem., 2012, 22, 2851-54.


2011 year

1、邵 进, 任玉荣, 李国强, 黄小兵, 周固民, 瞿美臻。 用作锂离子电池负极材料的包碳螺旋结构碳纳米管。 无机材料学报, 2011, 26 (6): 631-637; 
2、Jin Shao,Jingxian Zhang,Jinjin Jiang,Gumin Zhoua,Meizhen Qu. α-Fe2O3@CNSs nanocomposites as superior anode materials for lithium-ion batteries; Electrochimica Acta,2011, 56, 7005-7011; 
3、孙静,刘佳鸿,熊高虎,瞿美臻。碳纳米管的静电自组装制备及在导电涂料中的应用,涂料工业,2011,41(10),25-29,33; 
4、Baojun Li, Huaqiang Cao, Jin Shao, He Zheng, Yuexiang Lu, Jiefu Yina and Meizhen Qu. Improved performances of b-Ni(OH)2@reduced-graphene-oxide in Ni-MH and Li-ion batteries, Chem. Commun., 2011, 47, 3159–3161;

2010 year

1、Xing Li, Meizhen Qu, Yongjian Huai, Zuolong Yu, Preparation and eletrochemical performance of Li4Ti5O12/carbon/carbon nano- tubes for lithium-ion battery. Electrichimica Acta. 2010, 55, 2978-2982.
2、Xing Li, Meizhen Qu, Zuolong Yu, Preparation and electrochemical performance of Li4Ti5O12/graphitized carbon nanotubes composite. Solid State Ionics, 2010,181(13-14), 635-639;
3、瞿美臻,林浩强,于作龙, LiCl-KCl熔盐中纯氧氧化提纯单壁碳纳米管,化学学报,2010,68(5),413-417. 
4、李星,瞿美臻,于作龙,锂离子电池负极材料Li4-xKxTi5O12结构和电化学性能,无机化学学报 ,2010,26(2),233-239.
5、Xing Li, Meizhen Qu, Zuolong Yu,Structural and Electrochemical Performances of Li4Ti5- xZrxO12 as Anode Material for Lithium-Ion Batteries. Physical Inorganic Chemistry,2010,41(7 ),Article first published online: 22 JAN 2010,DOI: 10.1002/chin.201007008
6、Xiaobing Huang, Xing Li, Haiyan Wang, Zhonglai Pan, Meizhen Qu, Zuolong Yu, Synthesis and electrochemical performance of Li2FeSiO4/C as cathode material for lithium batteries. Solid State Ionics, 2010,181(31-32), 1451-1455;
7、Xiaobing Huang, Xing Li, Haiyan Wang, Zhonglai Pan, Meizhen Qu, Zuolong Yu Synthesis and electrochemical performance of Li2FeSiO4/carbon/carbon nano-tubes for lithium ion battery. Electrochimica Acta, 2010, 55(24), 7362-7366;
8、Mingqi Li, Zuolong Yu, Meizhen Qu. Preparation of SixCo0.3Cu0.3Cr0.6Al0.2 /modified graphite sphere composites and their electrochemical performance as anode materials for Li-ion batteries, Journal of Alloys and Compounds. 2010, 491 (1-2) 643–648.
9、Mingqi Li, Zuolong Yu. Preparation of SixCo0.6B0.6Al0.2/modified graphite sphere composites and their electrochemical property as anode materials for Li-ion batteries, Electrochimica Acta. 2010, 55 (7) 2217–2222.
10、任兆刚,瞿美臻,于作龙,LiFeP0.95B0.05O4-δ/C 的制备及电化学性能研究,无机材料学报 ,2010,25(3), 230-234; 

2009 year

1、Ming-Qi Li, Mei-Zhen Qu, Xiao-Ying He, Zuo-Long Yu, Electrochemical properties of Li2ZrO3-coated silicon/graphite/carbon composite as anode material for lithium ion batteries, Journal of Power Sources 188 (2009) 546–551. 
2、Ming-Qi Li, Mei-Zhen Qu, Xiao-Ying He, Zuo-Long Yu, Electrochemical Performance of Si/Graphite/Carbon Composite Electrode in Mixed Electrolytes Containing LiBOB and LiPF6,Journal of The Electrochemical Society, 156 (4) A294-A298,2009. 
3Xing Li, Meizhen Qu, Zuolong Yu, Structure and electrochemical performance of Li4Ti5-xZrxO12 as anode material for lithium-ion batteries. Journal of Alloys and Compounds. 2009, 487,12-17. 
4、Yurong Ren, Meizhen Qu, Zuolong Yu, Sio/CNTs: a new anode composites for Lithium-ion battery. Science in China Series B: Chemistry, 52(2009) 2047-2050. 
5、李星,瞿美臻,于作龙,含碳纳米管导电剂改善Li4Ti5O12电极电化学性能,功能材料,2009,40(11),1938-1941.
6、任玉荣,瞿美臻,于作龙,一种新型一氧化硅/碳纳米管锂离子电池负极材料,中国科学B辑:化学,2009,39:1593-1597. 
7、李国强,熊亮,林浩强,瞿美臻,Ni-Fe/4A分子筛催化剂可控制备大内经碳纳米管,无机化学学报,2009,25(8):1330-1335. 
8、李国强,熊亮,林浩强,瞿美臻,大管径碳纳米管的可控制备,合成化学,2009,17(3):300-303. 
9、李国强,林浩强,瞿美臻,薄壁碳纳米管的可控制备,工业催化,2009,17(增刊):113-117. 
10、熊亮,李国强,瞿美臻,Cu/La2O3催化裂解乙炔制备碳纳纤维,合成化学,2009,17(5):553-556. 

2008 year

1、张庆堂,瞿美臻,彭 珂,冯苏宁,于作龙,含碳纳米管导电剂改善LiCoO2电极电化学性能,功能材料,2008,39(1),170-173,176. 
2、李 星,瞿美臻,提高Li4Ti5O12高倍率性能和振实密度的研究进展,电源技术,2008,32(6), 409-412. 
3、Wang Guoping, Zhang Qingtang, Yu Zuolong, Qu MeiZhen, The effect of different kinds of nano-carbon conductive additives in lithium ion batteries on the resistance and electrochemical behavior of the LiCoO2 composite cathodes, Solid State Ionics, 2008, 179,? 263–268. 

2007 year

1、Yu Jing You, Qu Mei Zhen, Gu Min Zhou, Hao Qiang Lin, Jane Y. Howe, Zuo Long Yu, Growth of thin carbon nanotubes on MoCoMgO catalyst. Diamond & Related Materials. 2007, 16(2), 205-208. 
2、Guixin Wang, Meizhen Qu, Zuolong Yu, Rongzhong Yuan, LiNi0.8Co0.2O2/MWCNT composite electrodes for supercapacitors, Materials Chemistry and Physics, 105 (2007) 169–174. 
3、张庆堂,瞿美臻,牛 洪,于作龙,纳米炭复合物导电剂改进LiCoO2阴极的电化学性能,新型炭材料,2007,24(4),361-364. 
4、彭珂,张庆堂,陈国强,周固民,林浩强,瞿美臻,基体诱导法制备碳纳米管/云母复合导电粉,无机材料学报,2007,22(6),1131-1134. 
5、张庆堂,瞿美臻,冯苏宁,于作龙,锂离子电池用复合导电剂浆料制备与性能,合成化学,2007,15(B11),29-33. 
6、彭工厂,瞿美臻,于作龙,周固民,碳纳米管复合导电剂的应用研究,合成化学,2007,15(B11),50-52; 
7、李明齐,于作龙,瞿美臻,周固民,硅材料在锂离子电池负极中的应用研究进展,合成化学,2007,15(B11),42-43. 
 
2006 year

1、Li Chen, Xiu-Jiang Pang, Mei-Zhen Qu, Qing-tang Zhang, Bin Wang, Bai-Lan Zhang, Zuo-Long Yu, Fabrication and characterization of polycarbonate/carbon nanotubes composites, Composites: Part A 37 (2006) 1485–1489. 
2、Yu Jing You, Mei Zhen Qu, Gu Min Zhou, Hao Qiang Lin, Jane Y. Howe, Zuo Long Yu, Growth of thin carbon nanotubes on MoCoMgO catalyst,?Diamond & Related Materials xx (2006) xxx–xxx. 
3、尤玉静,瞿美臻,周固民,王贵欣,于作龙,液相氧化碳纳米管的氧化剂选择,合成化学,2006,14(5),446-449. 
4、王斌,瞿美臻, 林浩强,于作龙,煅烧温度对Li4Ti5O12的电化学性能的影响,合成化学,2006,14(6),631-633. 
5、王国平,张庆堂,瞿美臻,于作龙,纳米级碳导电剂的种类对LiCoO2电化学性能的影响,应用化学,2006,23(12),1385-1390. 
6、唐长兴,瞿美臻,于作龙,多规格碳纳米管的制备研究,天然气化工:C1化学与化工,2006,31(5),13-16. 
7、唐长兴,瞿美臻,于作龙,催化剂制备和活化条件对碳纳米管生长影响的研究,传感技术学报,19(05B),2337-2339. 
8、唐长兴,瞿美臻,于作龙,张伯兰,制备碳纳米管的LaCuxNi1-xOy催化剂研究,石油与天然气化工,2006,35(4),253-255. 
9、Li Chen, Xiu-Jiang Pang, Mei-Zhen Qu, Qing-tang Zhang, Bin Wang, Bai-Lan Zhang, Zuo-Long Yu, Fabrication and characterization of polycarbonate/carbon nanotubes composites, Composites: Part A 37 (2006) 1485–1489. 

2005 year

1、Gui-Xin Wang, Bo-Lan Zhang, Zuo-Long Yu, Mei-Zhen Qu. Manganese oxide/MWNTs composite electrodes for supercapacitors, Solid State Ionics, 2005(3), 176 (11-12): 1169-74;? 
2、Wang Guoping, Zhang Bolan, Yue Min, Xu Xiaoluo, Qu Meizhen, Yu Zuolong. A modified graphite anode with high initial efficiengcy and excellent cycle life expectation. Solid State Ionics, 2005(176): 905-909;
3、Wang Gui-xin, Meizhen Qu, Zuolong Yu. Effect of additive agent on the electrochemical capacitance of activated carbon, Chinese Journal of Synthetic Chemistry, 2004, 12 (supplement), 38;? 
4、Li Chen, Bolan Zhang, Meizhen Qu, Zuolong Yu, Preparation and characterization of TiO2-CNTs composites, powder technology, 154(2005), 70-72; 

2004 year

1、Changxing Tang, Meizhen Qu, Bo Lan ZHANG, Zuo Long YU, Preparation of Carbon Nanotubes with High Yield and Narrow Diameter Distribution from C2H2?over LaCu0.2Ni0.8Ox. Chinese Chemical Letters,2004,15(2),231-233;?
2、Li Chen, Meizhen Qu, Gumin Zhou, Bolan Zhang, Zuolong Yu, PC-mediated shortening of carbon nanotubes, Materials Letters?, 58(2004) 29, 3737-3740; 

2003 year

1、Yongcheng Feng , Gumin Zhou, Guoping Wang, Meizhen Qu, Zuolong Yu,Removal of some impurities from carbon nanotubes, Chemical Physics Letters, 375 (2003) ,645–648;
2、Changxing Tang, Meizhen Qu, Preparation of Carbon Nanotubes with High Yield and Narrow Diameter Distribution from C2H2?over LaCu0.2Ni0.8Ox.Chinese Chemical Letters(accepted). 
3、Qi JIANG, Mei Zhen QU, Bo Lan ZHANG, Zuo Long YU, Effects of different activation conditions on the specific surface area of the obtained activated carbon nanotubes, Carbon (accepted). 

2002 year

1、Qi JIANG, Mei Zhen QU, Bo Lan ZHANG, Zuo Long YU, Preparation of Activated Carbon Nanotubes, Carbon, 2002,40(14), 2743-2745; 
2、B. C. Liu, S. H. Tang, Z. L. Yu, B. L. Zhang, Catalytic Growth of Single-walled Carbon Nanotubes With a Narrow Distribution of Diameters over Fe Nanoparticles Prepared in situ by The Reduction of LaFeO3, Chemical Physics Letters, 2002, 357 (3-4), 297-300; 
3、Q. Jiang, M. Z. Qu, G. M. Zhou, B. L. Zhang, Z. L. Yu, A Study of Activated Carbon Nanotubes as Electrochemical Supercapacitors Electrode Materials, Material Letters, 2002,57(4), 988-991; 
4、B. C. Liu, M. Z. Qu, Z. L. Yu, Continuous Production of Carbon Nanotubes Using Moving Bed Reactor, Chinese Chemical Letters, 2001, 12(12),1135-1138; 
5、Hua-Qiang Wu, Xian-Wen Wei, Ming-Wang Shao, Jia-Shan Gu, Mei-Zhen Qu, Synthesis of copper oxide nanoparticles using carbon nanotubes as templates, Chemical Physics Letters, 2002,364(1-2), 152-156; 
6、L.Z.Gao, C.F.Ng, C.T.Au, NO titration for the estimation of H2 storage capacity of carbon nanotubes, Carbon, 2002,40(9), 1607-1609;

2001 year

1、Q. Liang, L.Z. Gao, Q. Li, S.H. Tang, B.C. Liu, Z.L. Yu, Carbon nanotubes growth on Ni-particles prepared in situ by reduction of La2NiO4 oxide, Carbon?39, 897- 903(2001); 
2、Q. Liang, Q. Li, L.Z. Gao, Z.L. Yu,Carbon nanotubes prepared from CO on pre-reduced La2NiO4 perovskite precursor,?Materials Research Bulletin 36, 471- 477(2001); 
3、B.C. Liu,?L.Z. Gao,?Q. Liang,?S.H. Tang,?M.Z. Qu, Z.L. Yu, A study on carbon nanotubes prepared from catalytic decomposition of C2H2 or CH4 over the pre-reduced LaCoO3 perovskite precursor, Catalysis Letters 71, 225-229(2001);
4、H Li , Q Liang , LZ Gao , S H Tang, Z Y Cheng, B L Zhang, Z L Yu, C F Ng, C T Au, Catalytic Production of Carbon Nanotubes by Decomposition of CH4 over the Pre-reduced Catalysts LaNiO3, La4Ni3O10, La3Ni2O7 and La2NiO4, Catalysis Letters 74(3/4),185~188(2001);? 
5、B.C. Liu, S.H. Tang, Q. Liang, L.Z. Gao, B.L. Zhang, M.Z. Qu, Z.L. Yu, Production of Carbon Nanotubes over Pre-reduced LaCoO3 by Using Fluidized-bed Reactor, Chinese Journal of Chemistry19, 983-986(2001); 
6、S.H. Tang, B.C. Liu, Q. Liang, L.Z. Gao, L.F. Zhang, Z.L. Yu, NO decomposition on Rh supported CNTs, Chinese Chemical Letters 12(1),83-86(2001); 
7、Shui Hua Tang, Lizhen Gao, Bao Chun Liu, He Li, BoLan Zhang, Liang Fu Zhang, Zuo Long Yu, Determination the Hydrogen stored in Carbon Nanotubes by NO titration Method,Chinese Chemical Letters 12(11), 1015~1018(2001) 
8、H. Li, S.H. Tang,?B.C. Liu, L.Z. Gao,?B. L. Liu, Q. Liang, B.L. Zhang, Z.L. Yu, A Study on Production of Carbon Nanotubes by CH4 Decomposition over LaNiO3, La4Ni3O10, La3Ni2O7 and La2NiO4 , Chinese Chemical Letters 12(9),839 – 842(2001); 
9、Tang S H. Gao L Z. Liu B C. Li H. Zhang L F. Yu Z L. NO Decomposition over Carbon Nanotubes (CNTs), Rh/CNTs and Rh/Al2O3,?J. Nat. Gas Chem. 10(3),196 ~ 202 (2001); 

 2000 year

1、Growth of Carbon Nanotubes on Ni Nano-particles Prepared in Situ by Reduction of La2NiO4 Oxides, Chinese Chemical Letters, 2000, 11 (6): 559-560;Qi LIANG, Qing LI, Bo Lan ZHANG, Zuo Long YU 
2、Production of Carbon Nanotubes over Pre-reduced LaCoO3 Using Fluidized-bed Reactor,Chinese Chemical Letters, 2000,11(11):1031-1034Bao Chun LIU,?Qi LIANG,?Shui Hua TANG, Li Zhen GAO, Bo Lan ZHANG, Mei Zhen QU, Zuo Long YU 
3、Electrochemical Properyies of Spinel LiMn2O4-dF for Cathode Materials of Secondary Lithium-ion Battery, Chinese Chemical Letters, 2000,11(5):455-458;Zhao Yong CHEN,?Xing Quan LIU,?Zuo Long YU 
4、The decomposition of NO on CNTs and 1wt%Rh/CNTs, Catalysis Letters, 2000, 66,91-97;J.Z. Luo, L.Z. Gao, Y.L. Leung,?and C.T.Au 
5、Carbon deposition and reaction steps in CO2/CH4 reforming over Ni-La2O3/5A catalyst, Studies in Surface Science and Catalysis 130, 689-694;?J.Z. Luo, L.Z. Gao, Z.L. YU, and C.T.Au 
6、CO2/CH4 Reforming over Ni-La2O3/5A :An Investigation on Carbon Deposition and Reaction Steps, Journal of catalysis, 2000,194, 198-210;J.Z. Luo, Z.L. YU,?C.F. Ng, and C.T.Au 


2. Patents
Our patents about CNTs had been authorized by state intellectual property office of P.R.China as follow:
 

 Application No.

Published No.

Title

01108769.2

cn1406864

Continuous production of carbon nanotubes using rotational moving-bed reactor

200420105748.x 

cn2885404

A moving-bed reactor

02113678.5 

cn1454838

A kind of equipment and technology of the continuous preparation of carbon nanotubes

00112788.8

cn1315291

A method of producing carbon nanotubes

01111561.0

cn1317446

Continuous production of carbon nanotubes using moving bed catalytic decomposition method

02133604.0

cn1475800

A method of measuring the purity of single-walled carbon nanotubes

03117874.x

cn1548227

The catalysts and preparation methods of carbon nanotubes

200410021654.9

cn1640933

Methods of carbon nanotubes composites

200410051045.8

cn1588679

Lithium ion secondary battery cathode material and its preparation method

200410021990.3

cn1667757

A kind of carbon nanotube composite conductive powder

02128041.X

cn1508894

Lithium ion battery cathode material and its synthetic method

03117448.5

cn1530321

A catalysts of producing small diameter carbon nanotubes

200410022459.8

cn1693392

A conducting electrostatic anticorrosion coating and its preparation method

200410022523.2 

cn1696053

A method of truncating carbon nanotubes

200410040704.8

cn1750176

A preparation method of carbon nanotube composite conductive powder

200610172183.0

cn1994562

The catalyst used in the production of carbon nanotubes

01128835.3

cn1407569

A application of activated carbon nanotubes.

01108645.9

cn1397488

A kind of post-processing method of increasing specific surface area of carbon nanotubes

02114721.3 

cn1432528 

A method of increasing the length of carbon nanotubes

02113769.2

cn1459325

High temperature resistant microporous membrane and its preparation method

00112846.9 

cn1317367

A catalyst for selective hydrogenation of acetylene

00112847.7

cn1317468

A novel process for selective hydrogenation of acetylene to ethylene

00109934.5

cn1335257 

A catalyst for preparing carbon nanotubes

00132073.4

cn1357899

Carbon nanotubes for the super capacitor electrode material

02128008.8 

cn1506312

A method for preparing sub micron lithium ion battery cathode material

00112922.8

cn1324119

A cathode materials for lithium ion secondary battery and preparation method

02133803.5

cn1485271

A method for removing cobalt, nickel or(and) iron in carbon nanotubes

99117433.X

cn1298859

Using method of mixed gas from oil-jet coproduction by waste heat of natural gas rotary flame acetylene furnace

00112714.4

cn1311181

Using method of mixed gas containing acetylene, ethylene and synthetic gas

200510021505.7

cn1770515

Using method of mixed gas containing acetylene, ethylene and synthetic gas

201110181371.0

 

Preparation method of a kind of prismatic nano carbon fiber

ZL200810045456.8

 

A method for removing amorphous carbon in carbon nanotubes

201410156416.2

 

Preparation method of a kind of aligned carbon nanotubes

201410387509.6

 

Graphene oxide / lithium titanate composite anode materials for the lithium ion

201410734810.X

 

A kind of easily dispersible nitrogen doped graphene powder and its preparation method

201510107804.6

 

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