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, C����NTs Conductive Additive for Lithium Ion Battery, metal coated CNTs and so on.
2015 year
1、Wen Li, Mianzhong Chen, ���J�������injin 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;
2、Xiang Li, Zhengwei Xie, Wenjing Liu, Wujie Ge, Hao Wang, Meizhen Q��������u. Effects of fluorine doping on structure, surface chemistry, and electrochemical performance of LiNi0.8Co0.15Al0.05O2, Electrochimic�����a Acta, 2015,174, 1122~1130;
2014 year
1、Jingxi�������an Zhang, Zhengwei Xie, Wen Li, Shaoqiang Dong, Meizhen 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 t����he gas generation of Li4Ti5O12 anode battery. Electrochimica Acta,2014, 139,104~110;
3、Zhengwei Xie; Xiang Li; Wen Li; Mianzhong Chen; Meizhen Qu, Graphene oxide/lithium titanat������e composite with binde������r-free as high capacity anode material for lithium-ion batteries, Journal of Power Sources, 2015,273, 754-760
4、石香蓉,張靜嫻,劉佳鴻,孫靜,濃氫氧化鈉參雜的單壁碳納米管明亮膜的制法舉例說明導電耐熱性,分解成化學,2014,22(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 Batteries,International Journal of Elecrochemi������cal 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, In�������ternational Journal of Elecrochemical Science,2014, 9,6258~6265;
7、Xing Li, Shuihua Tang, Meizhen Qu, Pengxiao Huang , Wen Li , Zuolong Yu,A 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,劉佳鴻,孫靜。碳納米管/環氧樹脂復合材料的靜電自組裝制備及性能,高分子材料科學與工程,2013,29(1),136-9;
4、唐小淋,瞿美臻,張靜嫻,姜錦錦,董少強,Fe/MgO催化裂解甲烷制備碳納米帶,合成化學,2013,21(5),534-537,542;
5、李星,唐水花,瞿美臻,于作龍,黃鵬肖,康毅力,尖晶石型鈦酸鋰負極材料的研究現狀,合成化學,2013,21(1),119-123;
6、李星,唐水花,瞿美臻,關小旭,康毅力,鋰離子電池正極材料LiNi1/3Co1/3Mn1/3O2的研究現狀,合成化學,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、孫靜,劉佳鴻,熊高虎,瞿美臻。碳納米管填料靜電自組裝制備及在導電塑料中的應用,塑料工業,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 a���nd Xianghua Kong. SnO2-carbon- RGO heterogeneous electrode materials with enhanced anode performances in lithium ion batteri�������es. J. Mater. Chem., 2012, 22, 2851-54.
2011 year
1、邵 進, 任玉榮, 李國強, 黃小兵, 周固民, 瞿美臻。 用作鋰離子電池負極材料的包碳螺旋結構碳納米管。 無機材料學報, 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、孫靜,劉佳鴻,熊高虎,瞿美臻。碳納米管的靜電自組裝制備及在導電涂料中的應用,涂料工業,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 Li4Ti5O1�����2/carbon/carbon �������nano- tubes for lithium-ion battery. Electrichimica Acta. 2010, 55, 2978-2982.
2、Xing Li, Meizhen Qu, Zuol������ong��� Yu, Preparation and electrochemical performance of Li4Ti5O12/graphitized carbon nanotubes composite. Solid State Ionics, 2010,181(13-14), 635-639;
3、瞿美臻,林浩強,于作龍, LiCl-KCl熔鹽中純氧氧化提純單壁碳納米管,化學學報,2010,68(5),413-417.
4、李星,瞿美臻,于作龍,鋰離子電池負極材料Li4-xKxTi5O12結構和電化學性能,無機化學學報 ,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、任兆剛,瞿美臻,于作龍,LiFeP0.95B0.05O4-δ/C 的制備及電化學性能研究,無機材料學報 ,2010,25(3), 230-234;
2009 year
1、Ming-Q������i 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 Soci�������ety, 156 (4) A294-A298,2009.
3、Xing 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 comp������osites for Lithium-ion battery. Science in China Series B: Chemistry, 52(2009) 2047-2050.
5、李星,瞿美臻,于作龍������,含碳納米管導電劑改善Li4Ti5O1��������2電極電化學性能,功能材料,2009,40(11),1938-1941.
6、������任玉榮,瞿美臻,于作龍,一種新型一氧化硅/碳納米管鋰離子電池������負極材料,中國科學B輯:化學,2009,39:1593-1597.
7、李國強,熊亮,林浩強,瞿美臻,Ni-Fe/4A分子篩催化劑可控制備大內經碳納米管,無機化學學報,2009,25(8):1330-1335.
8、李國強,熊亮,林浩強,瞿美臻,大管徑碳納米管的可控制備,合成化學,2009,17(3):300-303.
9、李國強,林浩強,瞿美臻,薄壁碳納米管的可控制備,工業催化,2009,17(增刊):113-117.
10、熊亮,李國強,瞿美臻,Cu/La2O3催化裂解乙炔制備碳納纖維,合成化學,2009,17(5):553-556.
2008 year
1、張慶堂,瞿美臻,彭 珂,馮蘇寧,于作龍,含碳納米管導電劑改善LiCoO2電極電化學性能,功能材料,2008,39(1),170-173,176.
2、李 星,瞿美臻,提高Li4Ti5O12高倍率性能和振實密度的研究進展,電源技術,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、張慶堂,瞿美臻,牛 洪,于作龍,納米炭復合物導電劑改進LiCoO2陰極的電化學性能,新型炭材料,2007,24(4),361-364.
4、彭珂,張慶堂,陳國強,周固民,林浩強,瞿美臻,基體誘導法制備碳納米管/云母復合導電粉,無機材料學報,2007,22(6),1131-1134.
5、張慶堂,瞿美臻,馮蘇寧,于作龍,鋰離子電池用復合導電劑漿料制備與性能,合成化學,2007,15(B11),29-33.
6、彭工廠,瞿美臻,于作龍,周固民,碳納米管復合導電劑的應用研究,合成化學,2007,15(B11),50-52;
7、李明齊,于作龍,瞿美臻,周固民,硅材料在鋰離子電池負極中的應用研究進展,合成化學,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、尤玉靜,瞿美臻,周固民,王貴欣,于作龍,液相氧化碳納米管的氧化劑選擇,合成化學,2006,14(5),446-449.
4、王斌,瞿美臻, 林浩強,于作龍,煅燒溫度對Li4Ti5O12的電化學性能的影響,合成化學,2006,14(6),631-633.
5、王國平,張慶堂,瞿美臻,于作龍,納米級碳導電劑的種類對LiCoO2電化學性能的影響,應用化學,2006,23(12),1385-1390.
6、唐長興,瞿美臻,于作龍,多規格碳納米管的制備研究,天然氣化工:C1化學與化工,2006,31(5),13-16.
7、唐長興,瞿美臻,于作龍,催化劑制備和活化條件對碳納米管生長影響的研究,傳感技術學報,19(05B),2337-2339.
8、唐長興,瞿美臻,于作龍,張伯蘭,制備碳納米管的LaCuxNi1-xOy催化劑研究,石油與天然氣化工,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 anod�����e 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, Mei�������zhen Qu, Zuolong Yu,Removal of s�������ome 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 Ca������rbon 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 Le����tters, 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 pero��������vskite 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/CH������4 Reforming over Ni-La2O3/5A :An Investigation on Carbon Deposition and Reaction Steps, Journal of catalysis, 20�����00,194, 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 as follow:
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Application No.
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Published No.
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Title
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01108769.2
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cn1406864
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Continuous production of carbon nanotubes using rotational moving-bed reactor
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200420105748.x
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cn2885404
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A moving-bed reactor
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02113678.5
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cn1454838
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A kind of equipment and technology of the continuous preparation of carbon nanotubes
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00112788.8
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cn1315291
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A method of producing carbon nanotubes
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01111561.0
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cn1317446
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Continuous production of carbon nanotubes using moving bed catalytic decomposition method
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02133604.0
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cn1475800
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A method of measuring the purity of single-walled carbon nanotubes
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03117874.x
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cn1548227
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The catalysts and preparation methods of carbon nanotubes
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200410021654.9
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cn1640933
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Methods of carbon nanotubes composites
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200410051045.8
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cn1588679
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Lithium ion secondary battery cathode material and its preparation method
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200410021990.3
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cn1667757
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A kind of carbon nanotube composite conductive powder
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02128041.X
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cn1508894
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Lithium ion battery cathode material and its synthetic method
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03117448.5
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cn1530321
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A catalysts of producing small diameter carbon nanotubes
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200410022459.8
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cn1693392
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A conducting electrostatic anticorrosion coating and its preparation method
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200410022523.2
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cn1696053
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A method of truncating carbon nanotubes
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200410040704.8
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cn1750176
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A preparation method of carbon nanotube composite conductive powder
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200610172183.0
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cn1994562
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The catalyst used in the production of carbon nanotubes
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01128835.3
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cn1407569
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A application of activated carbon nanotubes.
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01108645.9
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cn1397488
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A kind of post-processing method of increasing specific surface area of carbon nanotubes
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02114721.3
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