牛春明教授

牛春明教授

现任职务:西安交通大学电力设备电气绝缘国家重点实验室”千人计划“特聘教授,新型储能与能量转换纳米材料研究中心主任

 

 

牛春明博士个人简历

 

现任职务
西安交通大学电力设备电气绝缘国家重点实验室“千人计划”特聘教授,新型储能与能量转换纳米材料研究中心主任
联系地址:西安市雁翔路99号交大曲江校区西五楼   邮编:710054
电话:029-83395372
E-mail: cniu@mail.xjtu.edu.cn  
学习经历
1982年毕业于山西师范大学化学系;
19
85年获南京大学化学硕士,专业:催化;
19
90年获布朗大学化学博士,GPA:4.0(总平均成绩为满分),专业:固体化学;
1990 12-1991 7,哥伦比亚大学化学系博士后,专业:物理化学/材料化学; 1991 8-1993 8,大学化学系博士后,专业:物理化学/材料化学;  
2004年获美国管理学会项目管理证书。
工作简历
19742- 19781月,山西岚县中学教师;
19
782- 19821月,山西师范学院化学系学习;
19
822- 198412月,南京大学化学系硕士研究生;
19
851- 19879月,南京大学化学系博士研究生;
19
8710- 199011月,布朗大学化学系博士研究生
19
9012- 19917月,哥伦比亚大学化学系博士后研究;
19
9012- 19938月,哈大学化学系博士后研究;19939-200110, Hyperion Catalysis International, Inc. 高级科学家,项目经理
2001
11- 200710月,Nanosys, Inc.,公司的创始人之一,任化学部主任;200711- 20088月,Nanoconduction, Inc.经理(主管研发);
20089- 201012Unidym, Inc.经理(主管研发).  20121月起,西安交大特聘千人计划特聘教授,新能源纳米研究中心主任

 
学术成就
长期致力于新材料合成、制备及其应用技术研究。发明、参与发明专利将近266项(世界范围),其中已授权的美国专利85项。发表在科学杂志(Science) 的一篇论文被纽约时报,华尔街日报等国际知名报纸广泛报道,被引用949次,发表在应用物理通讯杂志(Applied Physics Letters)的一篇论文被引用1229次,发表在自然杂志(Nature)的一篇论文被引用880次。一项美国专利在2007年被选为当年的二十五项发明之一。
 
 杂志和会议论文
 
1.      “Energy Storage: Ternary Sn–Ti–O Based Nanostructures as Anodes for Lithium Ion Batteries”, Wang Hongkang, Huang He, Niu Chunming, Rogach Andery, Small, 2015 11 (12): 1480-1480.
2.      “CdS quantum dots modified N-doped titania plates with enhanced visible light photocatalytic activity”, Jian-Wen Shi, Zhenyu Wang, Chi He, Hongkang Wang, Jian-Wei Chen, Ming-Lai Fu, Chunming Niu, Journal of Molecular Catalysis A: Chemical, 399 (2015) 79–85.
3.      “Preparation of nano-graphite sheets supported Si nanoparticles by in situ reduction of fumed SiO2 with magnesium for lithium-ion battery”,Yi Zhang, Yizhe Jiang, Yudong Li, Beibei Li, Zhihui Li, Chunming Niu*,Journal of power sources, 2015, 281:425-431.
4.      “Facile Synthesis and Sulfuration of Ultra-dense and Ultra-fine MoO3 and WO3 Nanoparticle-Carbon Nanotube Hybrid Structures”,Xin Li, Zhenyu Wang, Jinying Zhang,* Chong Xie, Beibei Li, Rui Wang, Jun Li and Chunming Niu, J. Mat. Chem. A, under Reviewing
5.      “Adsorption and Deposition of Li2O2 on TiC{111} surface”, Zhenyu Wang, Jianwei Sun, Yonghong Cheng and Chunming Niu*, J. Phys. Chem. Lett. 2014,5,3919-3923.
6.      Ternary Sn-Ti-O Based Nanostructures as Anodes for Lithium Ion Batteries,Hongkang Wang,* He Huang, ChunmingNiu and Andrey L. Rogach, Small,
7.      “Transparent CNT Electrode for Organic Solar Cells”, Chong Xie, Shenghui Yang, Chunming Niu*, (特邀报告) 1st International Conference on Organic Optoelectronics (ICOOE 2014), Ningbo, 9,2014.
8.      “Synthesis and Characterization of Tin Titanate Nanotubes: As Precursors for Nanoparticulate Sn-doped”, Hongkang Wang,* Liujiang Xi, Jiri Tucek, Chuansheng Ma, Guang Yang, Tak Fu Hung, Michael K. H. Leung, Radek Zboril, Chunming Niu, Andrey L. Rogach, ChemElectroChem, 2014, 1(9), 1563–1569
9.      “大规模储能与未来电力系统发展“,牛春明,电力建设专委会2013年会特邀主旨报告,北京,2013.11.9.
10.   “Carbon nanotube transparent transparent conducting films”, C-M. Niu, MRS Bulletin, 36,766-773(2011).
11.   “Transparent conductive carbon nanotube films directly coated onto flexible and rigid polycarbonate”, D. S. Hecht, R. Lee, C. Ladous, and C-M. Niu, D. A. Banerjee, K. A. Sierros, and D. R. Cairns, J. Soc. Infor. Display, 19(2), 157-162 (2011).
12.   ”Carbon Nanotube Network Electrodes for Organic Solar Cells”, Chunming Niu, Invited presentation at 3rd Work Shop on Sustainable Energy Future: Focus on Organic Photovoltaics, ORNL, 9/2010.
13.   “Transparent conductive carbon nanotube films directly coated onto flexible and rigid polycarbonate”, D. S. Hecht, R. Lee, C. Ladous, and C-M. Niu, D. A. Banerjee, K. A. Sierros, and D. R. Cairns, 11th inter. Conf. on the Sci. and Appl. of Nanotubes, June 27 – July 2, 2010, Montreal, Canada.
14.   “Highly durable transparent carbon nanotube films for flexible displays and touch screens”, K. A. Sierros, and D. R. Cairns, D. S. Hecht, C. Ladous, R. Lee, and C-M. Niu, The SID In ternational Symposium, May 2010, Seattle, Washington.
15.   “Novel CNT applications for environmental benefits”, “C-M, Niu, D. Hecht, J. Chung, M. B. Millerand M. Tilley, The 4th International Carbon Festival/International Green Energy Nanocarbon Conference 2009, Korea, 11/2009 (invited talk).
16.   “Biomolecule-gated nanowire FET sensors”, C-M, Niu, A final report to NIH (a two year program), Oct., 2004.
17.   “High-performance thin-film transistors using semiconductor nanowires and nanoribbons”, X-F. Duan, C-M. Niu, V. Sahi, J. Chen, W. Parce, S. Empedocles, J. Goldman, Nature, 425, 274(2003).
18.   “Catalytically grown carbon nanotubes and their application", C-M. Niu, R. Hoch, and H. Tennent, in Proc. of Sixth Applied Diamond Conference / Second Frontier Carbon Technology Joint Conference, Auburn, Alabama, August 6-10, 2001 (Invited presentation).
19.   "High rate electrochemical capacitors based on carbon nanotube electrodes", C-M. Niu, J. Kupperschmidt, and R. Hoch, in Proc. 39th power sources conference, June, 2000, Cherry Hill, NJ.
20.   “Applications for catalytically Grown multi-walled nanotubes”, R. Hoch, H. Tennent, C-M. Niu, D. Moy, and A. Fischer, NASA Space 2000 – advancing the human frontier, Jan. 2000, Houston.
21.   “Affordable ultracapacitors based on carbon fibril electrodes”, C-M. Niu, A Phase II Final Report to BMDO, July 1999.
22.   “Nanoscale catalysts based on molybdenum and tungsten carbide and oxycarbides”, C-M. Niu, and F. Ribeiro, ACS meeting, 8/1999.
23.    “Nanoscale catalysts based on molybdenum and tungsten carbides and oxycarbides”, C-M. Niu, and F. Ribeiro, Book of Abstracts, 218th ACS National Meeting, New Orleans, Aug. 22-26 (1999),     IEC-003. CODEN: 67ZJA5 AN 1999:541343
24.   “NanoCap: High power electrochemical capacitors based on carbon nanotubes”, C-M. Niu, and R. Hoch, in Proceedings of 8th international seminar on double layer capacitors and similar energy storage devices, Deerfield beach, Florida, 1998.
25.   “A novel carbon structure prepared from carbon nanotubes”, C-M. Niu, and R. Hoch, Presented at 1998 ECS Spring Meeting, San Diego.
26.   “Affordable ultracapacitors based on carbon fibril electrodes”, C-M Niu, A Phase I Final Report to BMDO, July, 1997.
27.   “Affordable nanotube based molecular composites”, C-M. Niu, A Phase I Final Report to DARPA, October. 1998.
28.   “High Power electrochemical capacitors based on carbon nanotube electrode”, C-M. Niu, E. Sichel, R. Hoch, D. Moy, H. Tennent, Appl. Phys. Lett., 70, 1480(1997).
29.   “Ultra-high power electrochemical capacitors based on carbon nanotube electrodes”, C-M. Niu, E. Sichel, and R. Hoch, in Proceeding of 6th intern. Seminar on double layer capacitors and similar energy storage devices, Deerfield Beach, Florida, 1996.
30.   “Preparation of silicon carbide nanofibrils from vapor grown carbon nanotubes”, C-M. Niu, and D. Moy, Mar. Res. Soc. Symp. Proc., Vol. 410, 179(1996).
31.   “Commercial, catalytically grown carbon nanotubes of high purity and uniformity”, D. Moy, and C-M. Niu, presented at MRS Fall Meeting, 1995.
32.   “Preparation and characterization of SiC nanofibrils”, C-M. Niu, and D. Moy, in Proceedings of Applications of Diamond Films and Related Materials: Third International Conference, p 893-896, A. Feldman, et al, Eds. (NIST Special Publication 885, 1995).
33.   "Thin film synthesis of Solids", C-M. Niu, and C. M. Lieber, Encyclopedia of Inorganic Chemistry, 8, 4151-4158, B. King, Ed. (John Wiley & Sons, Ltd., Suseex, 1994).
34.   "Experimental realization of covalent C3N4 solids", C-M. Niu ,Y-Z. Lu and C. M. Lieber, Science, 261, 334(1993).
35.   "Exploiting laser based methods for low-temperature solid state synthesis: growth of a series of metastable (Sr1-xCax)1-CuO2 materials", C-M. Niu, and C. M. Lieber, J. Am. Chen. Soc., 115, 137(1993).
36.   "Growth of infinite layer phase of Sr1-xNdxCuO2 by laser ablation", C-M. Niu, and C. M. Lieber, Appl. Phys. Lett., 61(4), 1712(1992).
37.   "Low -T growth of the infinite layer phase of SrCuO2 by PLD", C-M. Niu, and C. M. Lieber, J. Am. Chem. Soc., 114, 3570(1992).
38.   "Local structure of Bi2.2Sr1.8Cu1-xFexO6 determined by STM", C-M. Niu, and C. M. Lieber, J. Phys. Chem., 96, 3419(1992).
39.   "Preparation and characterization of Fe2O3 thin films by novel spray pyrolysis method", Y-T. Qian, C-M. Niu, C. Hanningan, S. Yang, K. Dwight, and A. Wold, J. Solid State Chem., 92, 208(1991).
40.   "Nucleation and growth of diamonds on Si, Cu and Au substrates", C-M. Niu, G. Tsagaropoulos, J. Baglio, K. Dwight, and A. Wold, J. Solid Chem., 91, 47(1991).
41.    “Study of molybdenum trioxide-titania catalysts for partial oxidation of methanol”, C-M. Niu, Q-J. Yan, Y. Chen, Molecular Catalysis, 5, 9(1991).
42.   “Magnetization steps due to pairs of distant-nerghber spins in Zn1-xCoxSe and Zn1-xCoS”, Y. Shapira, T.Q. Vu, and B.K. Lau, S. Foner, E.J. McNiff, Jr., D. Heiman, and C.L.H. Thieme, C-M. Niu, R. Kershaw, K. Dwight, and A. Wold, V. Bindilatti, Soild State Commu., 75, 201(1990).
43.   "Preparation and properties of cobalt doped II-VI chalcogenides", C-M. Niu, R. Kershaw, K. Dwight, and A. Wold, J. Solid State Chem., 85, 262(1990).
44.   "Preparation and properties of system CuxPd1-x O (0 < x < 0.175)", C-M. Niu, P. H. Rieger, K. Dwight, and A. Wold, J. Solid State Chem., 86, 175(1990).
45.   "Preparation and properties of La2CuO4 and La2-xBixCuO4", C-M. Niu, J. DiCalo, K. Dwight, and A. Wold, J. Solid State Chem., 78, 307(1989).
46.   "Preparation and properties of La2-xAxCuO4, where A = Pb, Cd", C-M. Niu, C-H. Kim, R. Kershaw, and A. Wold, J. Solid State Chem., 80, 201(1989).
47.   “Determination of homogeneity range of La2CuO4”, J. Dicarlo, C-M. Niu, K. Dwight, and A. Wold, ACS Symposium 377, T. F. Geroge and D. L. Nelson, Eds, 1988.
48.   “ESR abd CNDO/2 stydy of Mo(V) formation and its coordination environment on the SnO2 surface, Yi Chen, C-M. Niu, G-X. Wang, in Proc. Of 4th Chinese National Conference of Catalysis, 1988.
49.   "A Mossbauer investigation of tin oxide films with preferred orientation of crystallites", H. Tang, R. Liu, Y. Hsia, Y. Chen, C-M. Niu, and X. Fu, Hyperfine Interaction, 41, 713(1988).
50.   "A Mossbauer investigation of amorphous tin-antimony oxide films", H. Tang, R. Liu, Y. Hsia, Y. Chen, C-M. Niu, and X. Fu, Hyperfine Interaction, 41, 717(1988).
51.   "Interaction of molybdenum oxide with various oxide supports: calcination of mechanical mixtures", S. R. Stampfl, Y. Chen, J. A. Dumesic, C-M. Niu, and C. G. Hill Jr., J. Catalysis, 105, 445(1987).
52.   “MoO3-TiO2 interaction – effect of MoO3 on phase transition of TiO2”, C-M. Niu, Q-J. Yan, and Y. Chen, in Proc. of 3th Chinese National Conference of Catalysis, 1986.
53.    “A Study of MoO3-SnO2Catalysts for Methanol Oxidation”, C-M. Niu, Q-J. Yan and Y. Chen, in Proceedings of the 2ndChina-Japan-U.S.A.Symposium on Hetereogeneous Catalysis P.B-19(US) 1985
54.   "A Study of the interaction between MoO3 and SnO2", C-M. Niu, Q-J. Yan, and Y. Chen, Acta. Pysica-Chemica Sinica, 1(3), 281(1985).
 
专利
发明和参与发明专利266项(worldwide),其中美国专利85
在Hyperion Catalysis International,Inc.的专利发明,共125项
1       US8992799      Polymers containing functionalized carbon nanotubes
A polymer composite composed of a polymerized mixture of functionalized carbon nanotubes and monomer which chemically reacts with the functionalized nanotubes. The carbon nanotubes are...
2       US8980136      Polymers containing functionalized carbon nanotubes
A polymer composite composed of a polymerized mixture of functionalized carbon nanotubes and monomer which chemically reacts with the functionalized nanotubes. The carbon nanotubes are...
3       US8580436      Methods of oxidizing multiwalled carbon nanotubes
Methods of oxidizing multiwalled carbon nanotubes are provided. The multiwalled carbon nanotubes are oxidized by contacting the carbon nanotubes with gas-phase oxidizing agents such as CO2, O2,...
4       US8545730      Electroconductive carbon fibril-based inks and coatings
Provided are inks and coatings including carbon nanotubes.
5       US8083970      Electroconductive carbon fibril-based inks and coatings
The present invention relates to electroconductive inks and methods of making and using the same. The electroconductive inks include carbon fibrils and a liquid vehicle. The electroconductive ink...
6       EP1449222B1 POLYMER CONTAINING FUNCTIONALIZED CARBON NANOTUBES
7       US7998369      Polyvinylidene fluoride composites and methods for preparing same
An electrically conductive composite comprising a polyvinylidene fluoride polymer or copolymer and carbon nanotubes is provided. Preferably, carbon nanotubes may be present in the range of about...
8       EP1226294B1 METHODS OF OXIDIZING MULTIWALLED CARBON NANOTUBES
9       US7960904      Field emission devices using carbon nanotubes modified by energy, plasma, chemical or mechanical treatment
The present invention relates to a field emission device comprising an anode and a cathode, wherein said cathode includes carbon nanotubes nanotubes which have been subjected to energy, plasma,...
10    EP1663857A4 FIELD EMISSION DEVICES MADE WITH LASER AND/OR PLASMA TREATED CARBON NANOTUBE MATS, FILMS OR INKS
11    US7880376      Field emission devices made with laser and/or plasma treated carbon nanotube mats, films or inks
Field emission devices comprising carbon nanotube mats which have been treated with laser or plasma are provided. Mats are formed from carbon nanotubes, also known as carbon fibrils, which are...
12    US7862790      Carbide nanofibrils and method of making same
A plurality of carbide, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide...
13    US7854945      Functionalized nanotubes
Graphitic nanotubes, which includes tubular fullerenes (commonly called “buckytubes”) and fibrils, which are functionalized by chemical substitution or by adsorption of functional moieties. Mor...
14    US7852613      Electroconductive carbon fibril-based inks and coatings
The present invention relates to electroconductive inks and methods of making and using the same. The electroconductive inks include carbon fibrils and a liquid vehicle. The electroconductive ink...
15    JP2010177214A      FIELD EMISSION DEVICE MADE OF LASER AND/OR PLASMA-TREATED CARBON NANOTUBE MAT, FILM OR INK
PROBLEM TO BE SOLVED: To provide a field emission device including a carbon nanotube mat subjected to laser or plasma treatment.SOLUTION: The field emission device includes a cathode and an anode....
16    DE69840984D1       DREIDIMENSIONALES INEINANDERGREIFENDES NETZ AUS MAKROSKOPISCHEN VERBINDUNGEN AUS ZUFALLSORIENTIERTEN KOHLENSTOFFFIBRILLEN UND ORGANISCHEN POLYMEREN
17    US7578989      Method of using carbide and/or oxycarbide containing compositions
Compositions including carbide-containing nanorods and/or oxycarbide-containing nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid...
18    JP2009167412A      THREE-DIMENTIONAL INTERPENETRATING NETWORK TEXTURE OF MACROSCOPIC ASSEMBLAGE OF RANDOMLY ORIENTED CARBON FIBRIL AND ORGANIC POLYMER
PROBLEM TO BE SOLVED: To produce a molecular composite based on an interpenetrating network texture of a polymer and carbon fibrils.SOLUTION: The interpenetrating network texture of the polymer and...
19    EP1155174B1 THREE-DIMENSIONAL INTERPENETRATING NETWORKS OF MACROSCOPIC ASSEMBLAGES OF RANDOMLY ORIENTED CARBON FIBRILS AND ORGANIC POLYMERS
20    DE69739191D1       GRAPHITNANOFASERN IN ELEKTROCHEMISCHEN KONDENSATOREN
21    EP0972292B1 GRAPHITIC NANOFIBERS IN ELECTROCHEMICAL CAPACITORS
22    DE60229544D1       MODIFIZIERUNG VON CARBON-NANORÖHRCHEN DURCH OXIDIERUNG MIT PERSAUERSTOFFVERBINDUNGEN
23    EP1920837A3 Carbide and oxycarbide based compositions and nanorods
Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid porous...
24    EP1434901B1 MODIFICATION OF CARBON NANOTUBES BY OXIDATION WITH PEROXYGEN COMPOUNDS
25    JP2008205487A      GRAPHITIC NANOFIBERS IN ELECTROCHEMICAL CAPACITORS
PROBLEM TO BE SOLVED: To enhance the performance of the electrochemical capacitors by application of graphitic nanofiber based electrodes.SOLUTION: Graphitic nanofibers, which include tubular...
26    US7413723      Methods of oxidizing multiwalled carbon nanotubes
Methods of oxidizing multiwalled carbon nanotubes are provided. The multiwalled carbon nanotubes are oxidized by contacting the carbon nanotubes with gas-phase oxidizing agents such as CO2, O2,...
27    US7393514      Carbide nanofibrils and method of making same
A plurality of carbide, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide...
28    US7393475      Polyvinylidene fluoride composites and methods for preparing same
An electrically conductive composite comprising a polyvinylidene fluoride polymer or copolymer and carbon nanotubes is provided. Preferably, carbon nanotubes may be present in the range of about...
29    EP1920837A2 Carbide and oxycarbide based compositions and nanorods
Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid porous...
30    EP1451844A4 FIELD EMISSION DEVICES USING MODIFIED CARBON NANOTUBES
31    US7341498      Method of irradiating field emission cathode having nanotubes
Field emission devices comprising carbon nanotube mats which have been treated with laser or plasma are provided. Mats are formed from carbon nanotubes, also known as carbon fibrils, which are...
32    US7230149      Method of using carbide and/or oxycarbide containing compositions
Compositions including carbide-containing nanorods and/or oxycarbide-containing nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid...
33    DE69736519D1       NANOFASERN MIT GROSSEN OBERFLÄCHEN
34    EP0907773B1 HIGH SURFACE AREA NANOFIBERS
Abstract not available for EP0907773 Abstract of corresponding document: WO9743473 A high surface area nanofiber is disclosed. The nanofiber has a coating which contains pores sufficient to...
35    DE69832537T2        FIBRILKOMPOSITELEKTRODE FÜR ELEKTROCHEMISCHE KONDENSATOREN
36    US7070753      Modification of nanotubes oxidation with peroxygen compounds
A method of chemically modifying carbon nanotubes having a diameter less than one micron comprising: contacting the nanotubes with a peroxygen compound selected from the group consisting of organic...
37    EP1415309A4 POLYVINYLIDENE FLUORIDE COMPOSITES AND METHODS FOR PREPARING SAME
Abstract not available for EP1415309
38    EP1663857A2 FIELD EMISSION DEVICES MADE WITH LASER AND/OR PLASMA TREATED CARBON NANOTUBE MATS, FILMS OR INKS
Abstract not available for EP1663857
39    US7056452      Polyvinylidene fluoride composites and methods for preparing same
An electrically conductive composite comprising a polyvinylidene fluoride polymer or copolymer and carbon nanotubes is provided. Preferably, carbon nanotubes may be present in the range of about...
40    EP0972292A4 GRAPHITIC NANOFIBERS IN ELECTROCHEMICAL CAPACITORS
Abstract not available for EP0972292 Abstract of corresponding document: WO9743774 Graphitic nanofibers, which include tubular fullerenes (commonly called "buckytubes"), nanotubes and fibrils,...
41    DE69832537D1       FIBRILKOMPOSITELEKTRODE FÜR ELEKTROCHEMISCHE KONDENSATOREN
42    EP1449222A4 POLYMER CONTAINING FUNCTIONALIZED CARBON NANOTUBES
Abstract not available for EP1449222 Abstract of corresponding document: WO03038837 A polymer composite composed of a polymerised mixture of functionalized I carbon nanotubes and monomer which...
43    EP1118090B1 FIBRIL COMPOSITE ELECTRODE FOR ELECTROCHEMICAL CAPACITORS
Abstract not available for EP1118090 Abstract of corresponding document: WO0019461 Composite electrodes comprising carbon nanofibers (fibrils) and an electrochemically active material are provided...
44    US6960389      Rigid porous carbon structures, methods of making, methods of using and products containing same
This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous structures have a high surface area which are substantially free of micropores. Methods for...
45    EP1434901A4 MODIFICATION OF CARBON NANOTUBES BY OXIDATION WITH PEROXYGEN COMPOUNDS
Abstract not available for EP1434901
46    US6872681      Modification of nanotubes oxidation with peroxygen compounds
A method of chemically modifying carbon nanotubes having a diameter less than one micron comprising: contacting the nanotubes with a peroxygen compound selected from the group consisting of organic...
47    EP1118090A4 FIBRIL COMPOSITE ELECTRODE FOR ELECTROCHEMICAL CAPACITORS
Abstract not available for EP1118090 Abstract of corresponding document: WO0019461 Composite electrodes comprising carbon nanofibers (fibrils) and an electrochemically active material are provided...
48    WO/2005/012162A3      FIELD EMISSION DEVICES MADE WITH LASER AND/OR PLASMA TREATED CARBON NANOTUBE MATS, FILMS OR INKS
Field emission devices comprising carbon nanotube mats which have been treated with laser or plasma are provided. Mats are formed from carbon nanotubes, also known as carbon fibrils, which are...
49    WO/2005/012162A2      FIELD EMISSION DEVICES MADE WITH LASER AND/OR PLASMA TREATED CARBON NANOTUBE MATS, FILMS OR INKS
Field emission devices comprising carbon nanotube mats which have been treated with laser or plasma are provided. Mats are formed from carbon nanotubes, also known as carbon fibrils, which are...
50    EP1226294A4 METHODS OF OXIDIZING MULTIWALLED CARBON NANOTUBES
Abstract not available for EP1226294 Abstract of corresponding document: WO0107694 Methods of oxidizing multiwalled carbon nanotubes are provided. The multiwalled carbon nanotubes are oxidized by...
51    US6841508      Carbide and oxycarbide based compositions, rigid porous structures including the same, methods of making and using the same
Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid porous...
52    EP1272593A4 CARBON NANOTUBES IN FUELS AND LUBRICANTS
Abstract not available for EP1272593 Abstract of corresponding document: WO0170915 Improved fuel compositions containing carbon nanotubes in from 0.01 % to 30.0 % by weight of fuel have improved...
53    US6828282      Lubricants containing carbon nanotubes
Improved fuel compositions containing carbon nanotubes in from 0.01% to 30.0% by weight of fuel have improved burn rate and other valuable properties. Improved lubricant compositions containing...
54    EP0910340A4 FUNCTIONALIZED NANOTUBES
Abstract not available for EP0910340 Abstract of corresponding document: WO9732571 Graphitic nanotubes, which include tubular fullerenes (commonly called "buckytubes") and fibrils, which are...
55    US6809229      Method of using carbide and/or oxycarbide containing compositions
Compositions including carbide-containing nanorods and/or oxycarbide-containing nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid...
56    EP1155174A4 THREE-DIMENSIONAL INTERPENETRATING NETWORKS OF MACROSCOPIC ASSEMBLAGES OF RANDOMLY ORIENTED CARBON FIBRILS AND ORGANIC POLYMERS
Abstract not available for EP1155174 Abstract of corresponding document: US6113819 The invention relates to an interpenetrating network of carbon fibrils and a polymer, which comprises a rigidized,...
57    DE69727671T2        STARRE, PORÖSE KOHLENSTOFFSTRUKTUREN, VERFAHREN ZU DEREN HERSTELLUNG UND VERWENDUNG UND DIESE STRUKTUREN ENTHALTENDE ERZEUGNISSE
58    EP1451844A2 FIELD EMISSION DEVICES USING MODIFIED CARBON NANOTUBES
Abstract not available for EP1451844
59    US6783702      Polyvinylidene fluoride composites and methods for preparing same
An electrically conductive composite comprising a polyvinylidene fluoride polymer or copolymer and carbon nanotubes is provided. Preferably, carbon nanotubes may be present in the range of about...
60    EP1449222A1 POLYMER CONTAINING FUNCTIONALIZED CARBON NANOTUBES
Abstract not available for EP1449222 Abstract of corresponding document: WO03038837 A polymer composite composed of a polymerised mixture of functionalized I carbon nanotubes and monomer which...
61    DE69532044T2        FUNKTIONALISIERTE NANORÖHRE
62    EP1434901A1 MODIFICATION OF CARBON NANOTUBES BY OXIDATION WITH PEROXYGEN COMPOUNDS
Abstract not available for EP1434901
63    WO/2003/084865A3      FIELD EMISSION DEVICES USING MODIFIED CARBON NANOTUBES
The present invention relates to a field emission device (4000) comprising an anode (4080) and a cathode (4010), wherein the cathode includes carbon nanotubes (4020) which have been subjected to...
64    US6746627      Methods for preparing polyvinylidene fluoride composites
An electrically conductive composite comprising a polyvinylidene fluoride polymer or copolymer and carbon nanotubes is provided. Preferably, carbon nanotubes may be present in the range of about...
65    WO/2003/084865A9      FIELD EMISSION DEVICES USING MODIFIED CARBON NANOTUBES
The present invention relates to a field emission device comprising an anode and a cathode, wherein said cathode includes carbon nanotubes nanotubes which have been subjected to energy, plasma,...
66    EP1415309A1 POLYVINYLIDENE FLUORIDE COMPOSITES AND METHODS FOR PREPARING SAME
Abstract not available for EP1415309
67    DE69628425T2        CARBID-NANOFIBRILLEN UND VERFAHREN ZUM HERSTELLEN DERSELBEN
68    DE69727671D1       STARRE, PORÖSE KOHLENSTOFFSTRUKTUREN, VERFAHREN ZU DEREN HERSTELLUNG UND VERWENDUNG UND DIESE STRUKTUREN ENTHALTENDE ERZEUGNISSE
69    EP0904195B1 RIGID POROUS CARBON STRUCTURES, METHODS OF MAKING, METHODS OF USING AND PRODUCTS CONTAINING SAME
Abstract not available for EP0904195 Abstract of corresponding document: WO9743116 This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous...
70    US6665169      Graphitic nanofibers in electrochemical capacitors
Graphitic nanofibers, which include tubular fullerenes (commonly called “buckytubes”), nanotubes and fibrils, which are functionalized by chemical substitution, are used as electrodes in ele...
71    DE69532044D1       FUNKTIONALISIERTE NANORÖHRE
72    EP0796403B1 FUNCTIONALIZED NANOTUBES
Abstract not available for EP0796403 Abstract of corresponding document: US6203814 Graphitic nanotubes, which includes tubular fullerenes (commonly called "buckytubes") and fibrils, which are...
73    WO/2003/084865A2      FIELD EMISSION DEVICES USING MODIFIED CARBON NANOTUBES
The present invention relates to a field emission device (4000) comprising an anode (4080) and a cathode (4010), wherein the cathode includes carbon nanotubes (4020) which have been subjected to...
74    DE69628425D1       CARBID-NANOFIBRILLEN UND VERFAHREN ZUM HERSTELLEN DERSELBEN
75    EP1246695A4 CARBIDE- AND OXYCARBIDE-BASED COMPOSITIONS, RIGID POROUS STRUCTURES INCLUDING THE SAME, AND METHODS OF MAKING AND USING THE SAME
Abstract not available for EP1246695 Abstract of corresponding document: WO0151201 Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing...
76    EP0817874B1 CARBIDE NANOFIBRILS AND METHOD OF MAKING SAME
Abstract not available for EP0817874 Abstract of corresponding document: WO9630570 A plurality of carbides, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having...
77    WO/2003/038837A1      POLYMER CONTAINING FUNCTIONALIZED CARBON NANOTUBES
A polymer composite composed of a polymerised mixture of functionalized I carbon nanotubes and monomer which chemically reacts with the functionalized nanotubes. The carbon nanotubes are...
78    US6514897      Carbide and oxycarbide based compositions, rigid porous structures including the same, methods of making and using the same
The present invention relates to compositions and rigid porous structures that contain nanorods having carbides and/or oxycarbides and methods of making and using such compositions and such rigid...
79    WO/2003/007314A1      POLYVINYLIDENE FLUORIDE COMPOSITES AND METHODS FOR PREPARING SAME
An electrically conductive composite comprising a polyvinylidene fluoride polymer or copolymer and carbon nanotubes is provided. Preferably, carbon nanotubes may be present in the range of about...
80    EP1272593A1 CARBON NANOTUBES IN FUELS AND LUBRICANTS
Abstract not available for EP1272593 Abstract of corresponding document: WO0170915 Improved fuel compositions containing carbon nanotubes in from 0.01 % to 30.0 % by weight of fuel have improved...
81    US6491789      Fibril composite electrode for electrochemical capacitors
Composite electrodes including carbon nanofibers (fibrils) and an electrochemically active material are provided for use in electrochemical capacitors. The fibril composite electrodes exhibit high...
82    WO/2002/095098A1      MODIFICATION OF CARBON NANOTUBES BY OXIDATION WITH PEROXYGEN COMPOUNDS
A method of chemically modifying carbon nanotubes having a diameter less than one micron comprising: contacting the nanotubes with a peroxygen compound selected from the group consisting of organic...
83    DE69620899T2        SILIZIUMNITRID-NANOWHISKERS UND VERFAHREN ZUR HERSTELLUNG DERSELBEN
84    EP1152827A4 CARBIDE AND OXYCARBIDE BASED COMPOSITIONS AND NANORODS
Abstract not available for EP1152827 Abstract of corresponding document: WO0041808 Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing...
85    EP1246695A1 CARBIDE- AND OXYCARBIDE-BASED COMPOSITIONS, RIGID POROUS STRUCTURES INCLUDING THE SAME, AND METHODS OF MAKING AND USING THE SAME
Abstract not available for EP1246695 Abstract of corresponding document: WO0151201 Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing...
86    US6432866      Rigid porous carbon structures, methods of making, methods of using and products containing same
This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous structures have a high surface area which are substantially free of micropores. Methods for...
87    EP1226294A1 METHODS OF OXIDIZING MULTIWALLED CARBON NANOTUBES
Abstract not available for EP1226294 Abstract of corresponding document: WO0107694 Methods of oxidizing multiwalled carbon nanotubes are provided. The multiwalled carbon nanotubes are oxidized by...
88    US6419717      Carbon nanotubes in fuels
Improved fuel compositions containing carbon nanotubes in from 0.01% to 30.0% by weight of fuel have improved bum rate and other valuable properties. Improved lubricant compositions containing...
89    US6414836      Electrochemical capacitors having electrodes with diverse redox potentials
Graphitic nanofibers, which include tubular fullerenes (commonly called “buckytubes”), nanotubes and fibrils, which are functionalized by chemical substitution, are used as electrodes in ele...
90    DE69620899D1       SILIZIUMNITRID-NANOWHISKERS UND VERFAHREN ZUR HERSTELLUNG DERSELBEN
91    EP0852575B1 SILICON NITRIDE NANOWHISKERS AND METHOD OF MAKING SAME
Abstract not available for EP0852575 Abstract of corresponding document: WO9703935 Silicon nitride nanowhiskers predominantly having diameters substantially less than about 200 nm are disclosed....
92    EP1155174A1 THREE-DIMENSIONAL INTERPENETRATING NETWORKS OF MACROSCOPIC ASSEMBLAGES OF RANDOMLY ORIENTED CARBON FIBRILS AND ORGANIC POLYMERS
Abstract not available for EP1155174 Abstract of corresponding document: US6113819 The invention relates to an interpenetrating network of carbon fibrils and a polymer, which comprises a rigidized,...
93    EP1152827A1 CARBIDE AND OXYCARBIDE BASED COMPOSITIONS AND NANORODS
Abstract not available for EP1152827 Abstract of corresponding document: WO0041808 Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing...
94    WO/2001/070915A1      CARBON NANOTUBES IN FUELS AND LUBRICANTS
Improved fuel compositions containing carbon nanotubes in from 0.01 % to 30.0 % by weight of fuel have improved burn rate and other valuable properties. Improved lubricant compositions containing...
95    EP1118090A1 FIBRIL COMPOSITE ELECTRODE FOR ELECTROCHEMICAL CAPACITORS
Abstract not available for EP1118090 Abstract of corresponding document: WO0019461 Composite electrodes comprising carbon nanofibers (fibrils) and an electrochemically active material are provided...
96    WO/2001/051201A1      CARBIDE- AND OXYCARBIDE-BASED COMPOSITIONS, RIGID POROUS STRUCTURES INCLUDING THE SAME, AND METHODS OF MAKING AND USING THE SAME
Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid porous...
97    WO/2000/041808A9      CARBIDE AND OXYCARBIDE BASED COMPOSITIONS AND NANORODS
Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid porous...
98    US6205016      Fibril composite electrode for electrochemical capacitors
Composite electrodes including carbon nanofibers (fibrils) and an electrochemically active material are provided for use in electrochemical capacitors. The fibril composite electrodes exhibit high...
99    US6203814      Method of making functionalized nanotubes
Graphitic nanotubes, which includes tubular fullerenes (commonly called "buckytubes") and fibrils, which are functionalized by chemical substitution or by adsorption of functional moieties. More...
100 WO/2001/010779A1      INTERPENETRATING NETWORKS OF CARBON FIBRILS AND POLYMERS
The invention relates to an interpenetrating network of carbon fibrils and a polymer, which comprises a rigidized, three-dimensional macroscopic assemblage of a multiplicity of randomly oriented...
101 WO/2001/007694A1      METHODS OF OXIDIZING MULTIWALLED CARBON NANOTUBES
Methods of oxidizing multiwalled carbon nanotubes are provided. The multiwalled carbon nanotubes are oxidized by contacting the carbon nanotubes with gas-phase oxidizing agents such as CO¿2?, ...
102 EP0904195A4 RIGID POROUS CARBON STRUCTURES, METHODS OF MAKING, METHODS OF USING AND PRODUCTS CONTAINING SAME
Abstract not available for EP0904195 Abstract of corresponding document: WO9743116 This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous...
103 US6113819      Three dimensional interpenetrating networks of macroscopic assemblages of oriented carbon fibrils and organic polymers
The invention relates to an interpenetrating network of carbon fibrils and a polymer, which comprises a rigidized, three-dimensional macroscopic assemblage of a multiplicity of randomly oriented...
104 US6099965      Rigid porous carbon structures, methods of making, methods of using and products containing same
This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous structures have a high surface area which are substantially free of micropores. Methods for...
105 US6099960      High surface area nanofibers, methods of making, methods of using and products containing same
A high surface area carbon nanofiber is provided. The carbon nanofiber has an outer surface on which a porous high surface area layer is formed. A method of making the high surface area carbon...
106 WO/2000/041808A1      CARBIDE AND OXYCARBIDE BASED COMPOSITIONS AND NANORODS
Compositions including oxycarbide-based nanorods and/or carbide-based nanorods and/or carbon nanotubes bearing carbides and oxycarbides and methods of making the same are provided. Rigid porous...
107 WO/2000/019461A1      FIBRIL COMPOSITE ELECTRODE FOR ELECTROCHEMICAL CAPACITORS
Composite electrodes comprising carbon nanofibers (fibrils) and an electrochemically active material are provided for use in electrochemical capacitors. The fibril composite electrodes exhibit high...
108 US6031711      Graphitic nanofibers in electrochemical capacitors
Graphitic nanofibers, which include tubular fullerenes (commonly called "buckytubes"), nanotubes and fibrils, which are functionalized by chemical substitution, are used as electrodes in...
109 DE69419943T2        KAUTSCHUKZUSAMMENSETZUNG ENTHALTEND KOHLENSTOFF-FIBRILLEN UND REIFEN
110 EP0972292A1 GRAPHITIC NANOFIBERS IN ELECTROCHEMICAL CAPACITORS
Abstract not available for EP0972292 Abstract of corresponding document: WO9743774 Graphitic nanofibers, which include tubular fullerenes (commonly called "buckytubes"), nanotubes and fibrils,...
111 US5968650      Three dimensional interpenetrating networks of macroscopic assemblages of randomly oriented carbon fibrils and organic polymers
The invention relates to an interpenetrating network of carbon fibrils and a polymer, which comprises a rigidized, three-dimensional macroscopic assemblage of a multiplicity of randomly oriented...
112 DE69419943D1       KAUTSCHUKZUSAMMENSETZUNG ENTHALTEND KOHLENSTOFF-FIBRILLEN UND REIFEN
113 EP0739374B1 A RUBBER COMPOSITION CONTAINING CARBON FIBRILS AND A PNEUMATIC TIRE
Abstract not available for EP0739374 Abstract of corresponding document: WO9507316 A rubber composition containing carbon fibrils in which 0.5 to 60parts by weight of carbon fibril material...
114 WO/1999/023287A1      THREE-DIMENSIONAL INTERPENETRATING NETWORKS OF MACROSCOPIC ASSEMBLAGES OF RANDOMLY ORIENTED CARBON FIBRILS AND ORGANIC POLYMERS
The invention relates to an interpenetrating network of carbon fibrils and a polymer, which comprises a rigidized, three-dimensional macroscopic assemblage of a multiplicity of randomly oriented...
115 EP0910340A1 FUNCTIONALIZED NANOTUBES
Abstract not available for EP0910340 Abstract of corresponding document: WO9732571 Graphitic nanotubes, which include tubular fullerenes (commonly called "buckytubes") and fibrils, which are...
116 EP0907773A1 HIGH SURFACE AREA NANOFIBERS
Abstract not available for EP0907773 Abstract of corresponding document: WO9743473 A high surface area nanofiber is disclosed. The nanofiber has a coating which contains pores sufficient to...
117 EP0904195A1 RIGID POROUS CARBON STRUCTURES, METHODS OF MAKING, METHODS OF USING AND PRODUCTS CONTAINING SAME
Abstract not available for EP0904195 Abstract of corresponding document: WO9743116 This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous...
118 US5861454      Rubber composition containing carbon fibrils and a pneumatic tire
A rubber composition containing carbon fibrils in which 0.5 to 60 parts by weight of carbon fibril material comprised primarily of an aggregate of fibrils having an average particle diameter of...
119 EP0852575A4 SILICON NITRIDE NANOWHISKERS AND METHOD OF MAKING SAME
Abstract not available for EP0852575 Abstract of corresponding document: WO9703935 Silicon nitride nanowhiskers predominantly having diameters substantially less than about 200 nm are disclosed....
120 US5814290      Silicon nitride nanowhiskers and method of making same
Silicon nitride nanowhiskers predominantly having diameters substantially less than about 200 nm are disclosed. The nanowhiskers of Si3 N4 are produced by reacting gaseous SiO and N2 at elevated...
121 EP0852575A1 SILICON NITRIDE NANOWHISKERS AND METHOD OF MAKING SAME
Abstract not available for EP0852575 Abstract of corresponding document: WO9703935 Silicon nitride nanowhiskers predominantly having diameters substantially less than about 200 nm are disclosed....
122 EP0796403A4 FUNCTIONALIZED NANOTUBES
Abstract not available for EP0796403 Abstract of corresponding document: US6203814 Graphitic nanotubes, which includes tubular fullerenes (commonly called "buckytubes") and fibrils, which are...
123 EP0817874A1 CARBIDE NANOFIBRILS AND METHOD OF MAKING SAME
Abstract not available for EP0817874 Abstract of corresponding document: WO9630570 A plurality of carbides, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having...
124 WO/1997/043774A1      GRAPHITIC NANOFIBERS IN ELECTROCHEMICAL CAPACITORS
Graphitic nanofibers, which include tubular fullerenes (commonly called "buckytubes"), nanotubes and fibrils, which are fucntionalized by chemical substitution, are used as electrodes in...
125 WO/1997/043473A1      HIGH SURFACE AREA NANOFIBERS
A high surface area nanofiber is disclosed. The nanofiber has a coating which contains pores sufficient to increase the effective surface area of the nanofiber. Generally, the high surface area...
126 WO/1997/043116A1      RIGID POROUS CARBON STRUCTURES, METHODS OF MAKING, METHODS OF USING AND PRODUCTS CONTAINING SAME
This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous structures have a high surface area which are substantially free of micropores. Methods for...
127 EP0796403A1 FUNCTIONALIZED NANOTUBES
Abstract not available for EP0796403 Abstract of corresponding document: US6203814 Graphitic nanotubes, which includes tubular fullerenes (commonly called "buckytubes") and fibrils, which are...
128 WO/1997/032571A1      FUNCTIONALIZED NANOTUBES
Graphitic nanotubes, which include tubular fullerenes (commonly called 'buckytubes') and fibrils, which are functionalized by chemical substitution or by adsorption of functional moieties. More...
129 EP0739374A4 A RUBBER COMPOSITION CONTAINING CARBON FIBRILS AND A PNEUMATIC TIRE
Abstract not available for EP0739374 Abstract of corresponding document: WO9507316 A rubber composition containing carbon fibrils in which 0.5 to 60parts by weight of carbon fibril material...
130 WO/1997/003935A1      SILICON NITRIDE NANOWHISKERS AND METHOD OF MAKING SAME
Silicon nitride nanowhiskers predominantly having diameters substantially less than about 200 nm are disclosed. The nanowhiskers of Si3N4 are produced by reacting gaseous SiO and N2 at elevated...
131 EP0739374A1 A RUBBER COMPOSITION CONTAINING CARBON FIBRILS AND A PNEUMATIC TIRE
Abstract not available for EP0739374 Abstract of corresponding document: WO9507316 A rubber composition containing carbon fibrils in which 0.5 to 60parts by weight of carbon fibril material...
132 WO/1996/030570A1      CARBIDE NANOFIBRILS AND METHOD OF MAKING SAME
A plurality of carbides, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide...
133 WO/1996/018059A1      FUNCTIONALIZED FIBRILS
Graphitic nanotubes, which includes tubular fullerenes (commonly called "buckytubes") and fibrils, which are functionalized by chemical substitution or by adsorption of functional moieties. More...
134 WO/1995/007316A1      A RUBBER COMPOSITION CONTAINING CARBON FIBRILS AND A PNEUMATIC TIRE
A rubber composition containing carbon fibrils in which 0.5 to 60parts by weight of carbon fibril material comprised primarily of an aggregate of fibrils having an average particle diameter of 0.05...
135 DE69736519T2        NANOFASERN MIT GROSSEN OBERFL?CHEN
 
在Nanosys,INc.的专利发明,共129项
1       US8956637      Medical device applications of nanostructured surfaces
This invention provides novel nanofiber enhanced surface area substrates and structures comprising such substrates for use in various medical devices, as well as methods and uses for such...
2       JP2013219010A      NANOWIRE STRUCTURES INCLUDING CARBON
PROBLEM TO BE SOLVED: To provide a nanowire structure including carbon.SOLUTION: The present invention relates to a nanowire structure and an interconnected nanowire network including the...
3       EP1620256A4 NANOFIBER SURFACES FOR USE IN ENHANCED SURFACE AREA APPLICATIONS
4       EP2432058B8 NANOWIRE-BASED MEMBRANE ELECTRODE ASSEMBLIES FOR FUEL CELLS
5       EP1829141B1 NANOWIRE-BASED MEMBRANE ELECTRODE ASSEMBLIES FOR FUEL CELLS
6       US8440369      Nanowire-based membrane electrode assemblies for fuel cells
The present invention discloses nanowires for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is disclosed...
7       US8357475      Nanowire-based membrane electrode assemblies for fuel cells
The present invention discloses nanowires for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is disclosed...
8       JP2012187929A      SUBSTRATES, AND ARTICLES INCLUDING SILICON NANOFIBERS
PROBLEM TO BE SOLVED: To provide a porous nanofiber bearing substrate material that is helpful to electrical substrates, semipermeable membranes and barriers, structural lattices for tissue...
9       EP1537445B1 NANOCOMPOSITES
10    EP2399970A3 Nanocomposites
This invention provides composite materials comprising nanostructures (5,9) (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for...
11    EP2432058A1 Nanowire-based membrane electrode assemblies for fuel cells
The present invention discloses electrode catalyst support composites comprising nanowires grown on a substrate surface and a polymer electrolyte. The nanowires used in these composites comprise...
12    EP1952467B9 NANOWIRE STRUCTURES COMPRISING CARBON
13    EP2399970A2 Nanocomposites
This invention provides composite materials comprising nanostructures (5,9) (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for...
14    EP2378597A1 Nanowire structures comprising carbon
The present invention is directed to nanowire structures and interconnected nanowire networks comprising such structures, as well as methods for their production. The nanowire structures comprise a...
15    US8041171      Nanocomposites
This invention provides composite materials comprising nanostructures (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for making such...
16    EP1952467B1 NANOWIRE STRUCTURES COMPRISING CARBON
17    EP1869237A4 MEDICAL DEVICE APPLICATIONS OF NANOSTRUCTURED SURFACES
18    US8025960      Porous substrates, articles, systems and compositions comprising nanofibers and methods of their use and production
Porous nanofiber bearing substrate materials are provided having enhanced surface area for a variety of applications including as electrical substrates, semipermeable membranes and barriers,...
19    US7985454      Systems and methods for nanowire growth and manufacturing
The present invention is directed to compositions of matter, systems, and methods to manufacture nanowires. In an embodiment, a method to produce a catalytic-coated nanowire growth substrate for...
20    US7977013      Nanowire-based membrane electrode assemblies for fuel cells
The present invention discloses nanowires for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is disclosed...
21    US7977007      Nanowire-based membrane electrode assemblies for fuel cells
The present invention discloses nanowires for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is disclosed...
22    US7972616      Medical device applications of nanostructured surfaces
This invention provides novel nanofiber enhanced surface area substrates and structures comprising such substrates for use in various medical devices, as well as methods and uses for such...
23    US7951422      Methods for oriented growth of nanowires on patterned substrates
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
24    JP2011101047A      LARGE-AREA NANOENABLED MACROELECTRONIC SUBSTRATE, AND USE THEREFOR
PROBLEM TO BE SOLVED: To provide a method and apparatus for obtaining an electronic substrate including a plurality of semiconductor devices.SOLUTION: A thin film of nanowires is formed on a...
25    US7939218      Nanowire structures comprising carbon
The present invention is directed to nanowire structures and interconnected nanowire networks comprising such structures, as well as methods for their production. The nanowire structures comprise a...
26    US7932511      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
27    EP2261174A2 RFID tag using nanowire transistors
Macroelectronic substrate materials incorporating nanowires are describes. These are used to provide underlying electronic elements (e.g., transistors and the like) for a variety of different...
28    US7851841      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
29    US7842432      Nanowire structures comprising carbon
The present invention is directed to nanowire structures and interconnected nanowire networks comprising such structures, as well as methods for their production. The nanowire structures comprise a...
30    EP2253583A2 Method of harvesting nanostructures from a substrate
Nanostructure manufacturing methods and methods for assembling nanostructures into functional elements such as junctions, arrays and devices are provided. Systems for practicing the methods are...
31    EP1804958A4 NANOSTRUCTURED THIN FILMS AND THEIR USES
32    US7795125      System and process for producing nanowire composites and electronic substrates therefrom
The present invention relates to a system and process for producing a nanowire-material composite. A substrate having nanowires attached to a portion of at least one surface is provided. A material...
33    EP2218681A2 Applications of Nano-Enabled Large Area Macroelectronic Substrates Incorporating Nanowires and Nanowire Composites
Macroelectronic substrate materials incorporating nanowires are describes. These are used to provide underlying electronic elements (e.g., transistors and the like) for a variety of different...
34    US7755038      Nanostructured thin films and their uses
The present invention generally discloses the use of a nanostructured non-silicon thin film (such as an alumina or aluminum thin film) on a supporting substrate which is subsequently coated with an...
35    EP2194026A1 Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate (1920) having a plurality of semiconductor devices is described. A thin film of nanowires (1910) is formed on a substrate. The thin film of...
36    EP1952467A4 NANOWIRE STRUCTURES COMPRISING CARBON
37    US7651944      Methods of positioning and/or orienting nanostructures
Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use or integration. The methods utilize mask based processes alone or in combination with...
38    EP1522106A4 METHODS OF MAKING, POSITIONING AND ORIENTING NANOSTRUCTURES, NANOSTRUCTURE ARRAYS AND NANOSTRUCTURE DEVICES
39    US7603003      Nanocomposites
This invention provides composite materials comprising nanostructures (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for making such...
40    US7595528      Nano-enabled memory devices and anisotropic charge carrying arrays
Methods and apparatuses for nanoenabled memory devices and anisotropic charge carrying arrays are described. In an aspect, a memory device includes a substrate, a source region of the substrate,...
41    EP1563555A4 APPLICATIONS OF NANO-ENABLED LARGE AREA MACROELECTRONIC SUBSTRATES INCORPORATING NANOWIRES AND NANOWIRE COMPOSITES
42    EP1547139A4 LARGE-AREA NANOENABLED MACROELECTRONIC SUBSTRATES AND USES THEREFOR
43    EP1508161A4 METHODS OF POSITIONS AND/OR ORIENTING NANOSTRUCTURES
44    EP1829141A4 NANOWIRE-BASED MEMBRANE ELECTRODE ASSEMBLIES FOR FUEL CELLS
45    US7553371      Porous substrates, articles, systems and compositions comprising nanofibers and methods of their use and production
Porous and/or curved nanofiber bearing substrate materials are provided having enhanced surface area for a variety of applications including as electrical substrates, semipermeable membranes and...
46    EP1723676A4 NANO-ENABLED MEMORY DEVICES AND ANISOTROPIC CHARGE CARRYING ARRAYS
47    EP1537445A4 NANOCOMPOSITES
48    EP1713558A4 POROUS SUBSTRATES, ARTICLES, SYSTEMS AND COMPOSITIONS COMPRISING NANOFIBERS AND METHODS OF THEIR USE AND PRODUCTION
49    US7468315      System and process for producing nanowire composites and electronic substrates therefrom
The present invention relates to a system and process for producing a nanowire-material composite. A substrate having nanowires attached to a portion of at least one surface is provided. A material...
50    US7427328      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
51    US7422980      Methods of positioning and/or orienting nanostructures
Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use or integration. The methods utilize mask based processes alone or in combination with...
52    EP1952467A2 NANOWIRE STRUCTURES COMPRISING CARBON
53    EP1941554A2 LIGHT EMITTING NANOWIRES FOR MACROELECTRONICS
54    US7391018      Nanostructured thin films and their uses
The present invention generally discloses the use of a nanostructured non-silicon thin film (such as an alumina or aluminum thin film) on a supporting substrate which is subsequently coated with an...
55    US7382017      Nano-enabled memory devices and anisotropic charge carrying arrays
Methods and apparatuses for nanoenabled memory devices and anisotropic charge carrying arrays are described. In an aspect, a memory device includes a substrate, a source region of the substrate,...
56    WO/2008/027265A2      POROUS SUBSTRATES, ARTICLES, SYSTEMS AND COMPOSITIONS COMPRISING NANOFIBERS AND METHOD OF THEIR USE AND PRODUCTION
Porous and/or curved nanofiber bearing substrate materials are provided having enhanced surface area for a variety of applications including as electrical substrates, semipermeable membranes and...
57    WO/2008/027265A3      POROUS SUBSTRATES, ARTICLES, SYSTEMS AND COMPOSITIONS COMPRISING NANOFIBERS AND METHOD OF THEIR USE AND PRODUCTION
Porous and/or curved nanofiber bearing substrate materials are provided having enhanced surface area for a variety of applications including as electrical substrates, semipermeable membranes and...
58    US7339184      Systems and methods for harvesting and integrating nanowires
The present invention is directed to methods to harvest, integrate and exploit nanomaterials, and particularly elongated nanowire materials. The invention provides methods for harvesting nanowires...
59    EP1869237A2 MEDICAL DEVICE APPLICATIONS OF NANOSTRUCTURED SURFACES
60    WO/2007/136412A3      METHODS FOR ORIENTED GROWTH OF NANOWIRES ON PATTERNED SUBSTRATES
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
61    WO/2007/136412A2      METHODS FOR ORIENTED GROWTH OF NANOWIRES ON PATTERNED SUBSTRATES
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
62    US7273732      Systems and methods for nanowire growth and harvesting
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
63    EP1829141A2 NANOWIRE-BASED MEMBRANE ELECTRODE ASSEMBLIES FOR FUEL CELLS
Abstract not available for EP1829141 Abstract of corresponding document: WO2006062947 The present invention disclosed nanowires for use in a fuel cell comprising a metal catalyst deposited on a...
64    US7262501      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
65    WO/2007/061945A9      NANOWIRE STRUCTURES COMPRISING CARBON
The present invention is directed to nanowire structures and interconnected nanowire networks comprising such structures, as well as methods for their production. The nanowire structures comprise a...
66    WO/2007/078304A3      MEDICAL DEVICE APPLICATIONS OF NANOSTRUCTURED SURFACES
Novel nanofiber enhanced surface area substrates, structures comprising such substrates and methods and uses for such substrates in various medical devices are disclosed. Methods for enhancing...
67    WO/2007/078304A2      MEDICAL DEVICE APPLICATIONS OF NANOSTRUCTURED SURFACES
Novel nanofiber enhanced surface area substrates, structures comprising such substrates and methods and uses for such substrates in various medical devices are disclosed. Methods for enhancing...
68    EP1804958A2 NANOSTRUCTURED THIN FILMS AND THEIR USES
Abstract not available for EP1804958 Abstract of corresponding document: WO2006118595 The present invention generally discloses the use of a nanostructured non- silicon thin film (such as an...
69    US7233041      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
70    US7228050      Nanocomposites
This invention provides composite materials comprising nanostructures (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for making such...
71    WO/2007/061945A2      NANOWIRE STRUCTURES COMPRISING CARBON
The present invention is directed to nanowire structures and interconnected nanowire networks comprising such structures, as well as methods for their production. The nanowire structures comprise a...
72    WO/2007/061945A3      NANOWIRE STRUCTURES COMPRISING CARBON
The present invention is directed to nanowire structures and interconnected nanowire networks comprising such structures, as well as methods for their production. The nanowire structures comprise a...
73    EP1769530A2 SYSTEMS AND METHODS FOR HARVESTING AND INTEGRATING NANOWIRES
Abstract not available for EP1769530 Abstract of corresponding document: WO2006016914 The present invention is directed to methods to produce, process, and exploit nanomaterials, and particularly...
74    US7179561      Nanowire-based membrane electrode assemblies for fuel cells
The present invention discloses nanowires for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is disclosed...
75    EP1747577A2 SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND HARVESTING
Abstract not available for EP1747577 Abstract of corresponding document: WO2005119753 The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment,...
76    US7164209      Methods of positioning and/or orienting nanostructures
Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use or integration. The methods utilize mask based processes alone or in combination with...
77    EP1741129A2 SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND MANUFACTURING
Abstract not available for EP1741129 Abstract of corresponding document: US2005279274 The present invention is directed to compositions of matter, systems, and methods to manufacture nanowires. In...
78    WO/2006/062947A3      NANOWIRE-BASED MEMBRANE ELECTRODE ASSEMBLIES FOR FUEL CELLS
The present invention disclosed nanowires (316) for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is...
79    US7151209      Methods of making, positioning and orienting nanostructures, nanostructure arrays and nanostructure devices
Nanostructure manufacturing methods and methods for assembling nanostructures into functional elements such as junctions, arrays and devices are provided. Systems for practicing the methods are...
80    WO/2006/130359A2      LIGHT EMITTING NANOWIRES FOR MACROELECTRONICS
Systems and methods to fabricate macroelectronic light emitting devices using densely oriented nanowires are disclosed. In one embodiment, core nanowires are synthesized and an insulating shell is...
81    WO/2006/130359A3      LIGHT EMITTING NANOWIRES FOR MACROELECTRONICS
Systems and methods to fabricate macroelectronic light emitting devices using densely oriented nanowires are disclosed. In one embodiment, core nanowires are synthesized and an insulating shell is...
82    EP1723676A2 NANO-ENABLED MEMORY DEVICES AND ANISOTROPIC CHARGE CARRYING ARRAYS
Abstract not available for EP1723676 Abstract of corresponding document: WO2005089165 Methods and apparatuses for nanoenabled memory devices and anisotropic charge carrying arrays are described. In...
83    US7135728      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
84    WO/2006/118595A2      NANOSTRUCTURED THIN FILMS AND THEIR USES
The present invention generally discloses the use of a nanostructured non-silicon thin film (22) (such as an alumina or aluminum thin film) on a supporting substrate (10) which is subsequently...
85    WO/2006/118595A3      NANOSTRUCTURED THIN FILMS AND THEIR USES
The present invention generally discloses the use of a nanostructured non-silicon thin film (22) (such as an alumina or aluminum thin film) on a supporting substrate (10) which is subsequently...
86    EP1713558A1 POROUS SUBSTRATES, ARTICLES, SYSTEMS AND COMPOSITIONS COMPRISING NANOFIBERS AND METHODS OF THEIR USE AND PRODUCTION
Abstract not available for EP1713558 Abstract of corresponding document: WO2005075048 Porous nanofiber bearing substrate materials are provided having enhanced surface area for a variety of...
87    US7105428      Systems and methods for nanowire growth and harvesting
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
88    US7091120      System and process for producing nanowire composites and electronic substrates therefrom
The present invention relates to a system and process for producing a nanowire-material composite. A substrate having nanowires attached to a portion of at least one surface is provided. A material...
89    US7083104      Applications of nano-enabled large area macroelectronic substrates incorporating nanowires and nanowire composites
Macroelectronic substrate materials incorporating nanowires are described. These are used to provide underlying electronic elements (e.g., transistors and the like) for a variety of different...
90    WO/2005/119753A3      SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND HARVESTING
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
91    WO/2006/078281A2      SYSTEMS AND METHODS FOR HARVESTING AND INTEGRATING NANOWIRES
The present invention is directed to methods to harvest, integrate and exploit nanomaterials, and particularly elongated nanowire materials. The invention provides methods for harvesting nanowires...
92    WO/2006/078281A3      SYSTEMS AND METHODS FOR HARVESTING AND INTEGRATING NANOWIRES
The present invention is directed to methods to harvest, integrate and exploit nanomaterials, and particularly elongated nanowire materials. The invention provides methods for harvesting nanowires...
93    WO/2006/068654A3      SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND MANUFACTURING
The present invention is directed to compositions of matter, systems and methods to manufacture nanowires. In an embodiment, a buffer layer (350) is placed on a nanowire growth substrate (345) and...
94    WO/2006/068654A2      SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND MANUFACTURING
The present invention is directed to compositions of matter, systems and methods to manufacture nanowires. In an embodiment, a buffer layer (350) is placed on a nanowire growth substrate (345) and...
95    US7068898      Nanocomposites
This invention provides composite materials comprising nanostructures (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for making such...
96    US7067867      Large-area nonenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
97    US7064372      Large-area nanoenabled macroelectronic substrates and uses therefor
A method and apparatus for an electronic substrate having a plurality of semiconductor devices is described. A thin film of nanowires is formed on a substrate. The thin film of nanowires is formed...
98    WO/2006/062947A2      NANOWIRE-BASED MEMBRANE ELECTRODE ASSEMBLIES FOR FUEL CELLS
The present invention disclosed nanowires (316) for use in a fuel cell comprising a metal catalyst deposited on a surface of the nanowires. A membrane electrode assembly for a fuel cell is...
99    US7051945      Applications of nano-enabled large area macroelectronic substrates incorporating nanowires and nanowire composites
Macroelectronic substrate materials incorporating nanowires are described. These are used to provide underlying electronic elements (e.g., transistors and the like) for a variety of different...
100 WO/2005/089165A3      NANO-ENABLED MEMORY DEVICES AND ANISOTROPIC CHARGE CARRYING ARRAYS
Methods and apparatuses for nanoenabled memory devices and anisotropic charge carrying arrays are described. In an aspect, a memory device includes a substrate, a source region of the substrate,...
101 EP1652218A2 SYSTEM AND PROCESS FOR PRODUCING NANOWIRE COMPOSITES AND ELECTRONIC SUBSTRATES THEREFROM
Abstract not available for EP1652218
102 EP1620256A2 NANOFIBER SURFACES FOR USE IN ENHANCED SURFACE AREA APPLICATIONS
Abstract not available for EP1620256 Abstract of corresponding document: WO2004099068 The invention provides novel nanofiber enhanced surface area substrates and structures comprising such...
103 WO/2005/017962A3      System and process for producing nanowire composites and electronic substrates therefrom
104 WO/2005/119753A2      SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND HARVESTING
The present invention is directed to systems and methods for nanowire growth and harvesting. In an embodiment, methods for nanowire growth and doping are provided, including methods for epitaxial...
105 US6962823      Methods of making, positioning and orienting nanostructures, nanostructure arrays and nanostructure devices
Nanostructure manufacturing methods and methods for assembling nanostructures into functional elements such as junctions, arrays and devices are provided. Systems for practicing the methods are...
106 WO/2005/089165A2      NANO-ENABLED MEMORY DEVICES AND ANISOTROPIC CHARGE CARRYING ARRAYS
Methods and apparatuses for nanoenabled memory devices and anisotropic charge carrying arrays are described. In an aspect, a memory device includes a substrate, a source region of the substrate,...
107 WO/2005/075048A1      POROUS SUBSTRATES, ARTICLES, SYSTEMS AND COMPOSITIONS COMPRISING NANOFIBERS AND METHODS OF THEIR USE AND PRODUCTION
Porous nanofiber bearing substrate materials are provided having enhanced surface area for a variety of applications including as electrical substrates, semipermeable membranes and barriers,...
108 EP1563555A2 APPLICATIONS OF NANO-ENABLED LARGE AREA MACROELECTRONIC SUBSTRATES INCORPORATING NANOWIRES AND NANOWIRE COMPOSITES
Abstract not available for EP1563555 Abstract of corresponding document: WO2004032191 Macroelectronic substrate materials incorporating nanowires are described. These are used to provide underlying...
109 EP1547139A2 LARGE-AREA NANOENABLED MACROELECTRONIC SUBSTRATES AND USES THEREFOR
Abstract not available
110 EP1537445A2 NANOCOMPOSITES
Abstract not available for EP1537445 Abstract of corresponding document: WO2004022637 This invention provides composite materials comprising nanostructures (e.g., nanowires, branched nanowires,...
111 WO/2004/032191A3      APPLICATIONS OF NANO-ENABLED LARGE AREA MACROELECTRONIC SUBSTRATES INCORPORATING NANOWIRES AND NANOWIRE COMPOSITES
Macroelectronic substrate materials (5100) incorporating nanowires (2002) are described. These are used to provide underlying electronic (5110) elements (e.g., transistors and the like) for a...
112 WO/2004/099068A3      NANOFIBER SURFACES FOR USE IN ENHANCED SURFACE AREA APPLICATIONS
The invention provides novel nanofiber enhanced surface area substrates and structures comprising such substrates, as well as methods and uses for such substrates.
113 EP1522106A2 METHODS OF MAKING, POSITIONING AND ORIENTING NANOSTRUCTURES, NANOSTRUCTURE ARRAYS AND NANOSTRUCTURE DEVICES
Abstract not available for EP1522106
114 WO/2005/017962A9      SYSTEM AND PROCESS FOR PRODUCING NANOWIRE COMPOSITES AND ELECTRONIC SUBSTRATES THEREFROM
The present invention relates to a system and process for producing a nanowire-material composite. A substrate (602) having nanowires (606) attached to a portion (604) of at least one surface is...
115 US6872645      Methods of positioning and/or orienting nanostructures
Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use or integration. The methods utilize mask based processes alone or in combination with...
116 WO/2004/034025A3      NANO-CHEM-FET BASED BIOSENSORS
Methods of detecting a component of interest, a change in charge, a pH, a cellular response using nanosensors are provided. Nanosensors, including nanowires and nanowire arrays comprising...
117 WO/2005/017962A2      SYSTEM AND PROCESS FOR PRODUCING NANOWIRE COMPOSITES AND ELECTRONIC SUBSTRATES THEREFROM
The present invention relates to a system and process for producing a nanowire-material composite. A substrate (602) having nanowires (606) attached to a portion (604) of at least one surface is...
118 EP1508161A2 METHODS OF POSITIONS AND/OR ORIENTING NANOSTRUCTURES
Abstract not available for EP1508161 Abstract of corresponding document: US2003186522 Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use...
119 WO/2003/085700A3      METHODS OF MAKING, POSITIONING AND ORIENTING NANOSTRUCTURES, NANOSTRUCTURE ARRAYS AND NANOSTRUCTURE DEVICES
Nanostructure manufacturing methods and methods for assembling nanostructures into functional elements, such as junctions (850), arrays (830), and devices (800) are provided. Systems for practicing...
120 WO/2004/032193A3      LARGE-AREA NANOENABLED MACROELECTRONIC SUBSTRATES AND USES THEREFOR
A method and apparatus for an electronic substrate (1920) having a plurality of semiconductor devices is described. A thin film of nanowires (1910) is formed on a substrate. The thin film of...
121 WO/2003/085701A3      METHODS OF POSITIONS AND/OR ORIENTING NANOSTRUCTURES
Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use or integration. The methods utilize mask based processes alone or in combination with...
122 WO/2004/099068A2      NANOFIBER SURFACES FOR USE IN ENHANCED SURFACE AREA APPLICATIONS
The invention provides novel nanofiber enhanced surface area substrates and structures comprising such substrates, as well as methods and uses for such substrates.
123 WO/2004/022637A3      NANOCOMPOSITES
This invention provides composite materials comprising nanostructures (5,9) (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for...
124 WO/2004/034025A2      NANO-CHEM-FET BASED BIOSENSORS
Methods of detecting a component of interest, a change in charge, a pH, a cellular response using nanosensors are provided. Nanosensors, including nanowires and nanowire arrays comprising...
125 WO/2004/032193A2      LARGE-AREA NANOENABLED MACROELECTRONIC SUBSTRATES AND USES THEREFOR
A method and apparatus for an electronic substrate (1920) having a plurality of semiconductor devices is described. A thin film of nanowires (1910) is formed on a substrate. The thin film of...
126 WO/2004/032191A2      APPLICATIONS OF NANO-ENABLED LARGE AREA MACROELECTRONIC SUBSTRATES INCORPORATING NANOWIRES AND NANOWIRE COMPOSITES
Macroelectronic substrate materials (5100) incorporating nanowires (2002) are described. These are used to provide underlying electronic (5110) elements (e.g., transistors and the like) for a...
127 WO/2004/022637A2      NANOCOMPOSITES
This invention provides composite materials comprising nanostructures (5,9) (e.g., nanowires, branched nanowires, nanotetrapods, nanocrystals, and nanoparticles). Methods and compositions for...
128 WO/2003/085701A2      METHODS OF POSITIONS AND/OR ORIENTING NANOSTRUCTURES
Methods of positioning and orienting nanostructures, and particularly nanowires, on surfaces for subsequent use or integration. The methods utilize mask based processes alone or in combination with...
129 WO/2003/085700A2      METHODS OF MAKING, POSITIONING AND ORIENTING NANOSTRUCTURES, NANOSTRUCTURE ARRAYS AND NANOSTRUCTURE DEVICES
Nanostructure manufacturing methods and methods for assembling nanostructures into functional elements, such as junctions (850), arrays (830), and devices (800) are provided. Systems for practicing...
 
在Harvard University的专利发明,共2项
1       US5840435      Covalent carbon nitride material comprising C2 N and formation method
A nitride material comprises C2 N. A method of forming a covalent carbon material includes forming an atomic nitrogen source, forming an elemental reagent source and combining the atomic nitrogen,...
2       WO/1995/002709A2      EXTENDED NITRIDE MATERIAL COMPRISING 'beta'-C3N4
An extended nitride material comprises 'beta'-C3N4. A method of forming an extended nitride material includes forming an atomic nitrogen source, forming an elemental reagent source and combining...