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1.发明授权Non-stoichiometric nanomaterial compositions with distinctive shape and morphology 有权具有独特形状和形态的非化学计量纳米材料组成公开(公告)号:US07816006B2
公开(公告)日:2010-10-19
申请号:US10811628
申请日:2004-03-29
申请人: Tapesh Yadav , Clayton Kostelecky
发明人: Tapesh Yadav , Clayton Kostelecky
IPC分类号: B32B5/16
CPC分类号: H01L23/5328 , A61L27/06 , B01J12/005 , B01J12/02 , B01J19/0046 , B01J19/24 , B01J23/002 , B01J23/08 , B01J23/14 , B01J35/0013 , B01J37/18 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/00317 , B01J2219/00385 , B01J2219/0043 , B01J2219/00653 , B01J2219/00707 , B01J2219/00745 , B01J2219/00747 , B01J2219/0075 , B01J2219/00754 , B01J2219/00756 , B01J2219/0894 , B01J2523/00 , B05B1/12 , B22F1/0003 , B22F9/04 , B22F9/12 , B22F2009/041 , B22F2998/00 , B22F2999/00 , B29C70/58 , B82B1/00 , B82Y5/00 , B82Y25/00 , B82Y30/00 , C01B3/001 , C01B13/145 , C01B19/007 , C01B21/062 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G23/006 , C01G25/00 , C01G25/02 , C01G41/02 , C01G53/00 , C01G53/006 , C01P2002/01 , C01P2002/02 , C01P2002/34 , C01P2002/54 , C01P2002/60 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/38 , C01P2004/51 , C01P2004/54 , C01P2004/61 , C01P2004/62 , C01P2004/64 , C01P2006/10 , C01P2006/12 , C01P2006/40 , C01P2006/60 , C04B35/00 , C04B35/01 , C04B35/265 , C04B35/2666 , C04B35/453 , C04B35/457 , C04B35/56 , C04B35/5611 , C04B35/581 , C04B35/62222 , C04B41/009 , C04B41/4549 , C04B41/52 , C04B41/87 , C04B41/89 , C04B41/90 , C04B2111/00844 , C04B2235/3241 , C04B2235/3262 , C04B2235/3275 , C04B2235/3279 , C04B2235/3284 , C04B2235/3298 , C04B2235/79 , C04B2235/80 , C08K3/01 , C08K3/08 , C08K2201/011 , C08K2201/016 , G01N27/127 , H01C7/112 , H01C17/0652 , H01F1/0036 , H01F1/0045 , H01F1/36 , H01F41/0246 , H01G4/12 , H01G4/33 , H01L23/49883 , H01L2924/0002 , H01L2924/3011 , H01M4/02 , H01M4/04 , H01M4/242 , H01M4/581 , H01M4/5815 , H01M4/582 , H01M4/8875 , H01M4/8885 , H01M4/90 , H01M4/9066 , H01M8/1213 , H01M8/1246 , H01M8/1253 , H01M10/0562 , H01M10/0566 , Y02E60/324 , Y02E60/525 , Y02P70/56 , Y10S428/90 , Y10S977/762 , Y10S977/783 , Y10S977/81 , Y10S977/811 , Y10S977/948 , Y10T29/4902 , Y10T428/12056 , Y10T428/1216 , Y10T428/12181 , Y10T428/25 , Y10T428/254 , Y10T428/256 , Y10T428/257 , Y10T428/259 , Y10T428/2982 , Y10T428/2991 , Y10T428/2998 , B01J2523/33 , B01J2523/43 , B22F1/0018 , B22F2202/13 , B01J2523/31 , B01J2523/54 , B01J2523/67 , B01J2523/72 , B01J2523/845 , B01J2523/847 , B01J2523/22 , B01J2523/3706 , B01J2523/48 , B01J2523/18 , B01J2523/27 , B01J2523/824 , B01J2523/842 , B01J2523/17 , B01J2523/47 , B01J2523/56 , B01J2523/57 , C04B41/4539 , C04B41/5059 , C04B41/5116 , C04B41/5122 , C04B41/5027 , C04B41/5049 , C04B41/524 , C04B35/10 , B22F2201/11 , B01J2523/305 , B01J2523/69 , H01L2924/00
摘要: Nanoscale materials with domain sizes less than 100 nanometers and unusual shapes and morphologies are disclosed. A broad approach for manufacturing oxide and non-oxide nanomaterials with aspect ratio different than 1.0 is presented. Methods for engineering and manufacturing nanomaterials' size, shape, surface area, morphology, surface characteristics, surface composition, distribution, and degree of agglomeration are discussed. The methods taught includes the use of surfactants, dispersants, emulsifying agents in order to prepare precursors, which are then processed into novel nanoscale particle morphologies.
摘要翻译: 具有尺寸小于100纳米的纳米尺度材料和不寻常的形状和形态被公开。 提出了宽高比不等于1.0的广泛的制造氧化物和非氧化物纳米材料的方法。 讨论纳米材料尺寸,形状,表面积,形态,表面特性,表面组成,分布和聚集度等工程和制造方法。 所教导的方法包括使用表面活性剂,分散剂,乳化剂以制备前体,然后将其加工成新的纳米级颗粒形态。
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公开(公告)号:US07708974B2
公开(公告)日:2010-05-04
申请号:US11125316
申请日:2005-05-10
申请人: Tapesh Yadav
发明人: Tapesh Yadav
CPC分类号: C01G41/00 , B82Y30/00 , C01P2004/64 , C01P2006/12 , C09C1/00 , Y10S977/811 , Y10S977/812 , Y10T428/2982
摘要: Nanoparticles comprising tungsten, methods of manufacturing nanoparticles comprising tungsten, and applications of nanoparticles comprising tungsten, such as electronics, optical devices, photonics, reagents for fine chemical synthesis, pigments, and catalysts are provided.
摘要翻译: 提供了包含钨的纳米颗粒,制造包含钨的纳米颗粒的方法,以及包含钨的纳米颗粒的应用,例如电子学,光学器件,光子学,用于精细化学合成的试剂,颜料和催化剂。
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公开(公告)号:US07683098B2
公开(公告)日:2010-03-23
申请号:US11157164
申请日:2005-06-21
申请人: Tapesh Yadav
发明人: Tapesh Yadav
CPC分类号: C01B13/145 , B82Y30/00 , C01G1/00 , C01G3/02 , C01G9/02 , C01G19/00 , C01G23/002 , C01G23/003 , C01G23/005 , C01G23/006 , C01G23/047 , C01G25/00 , C01G25/02 , C01G29/00 , C01G41/02 , C01G45/1221 , C01G49/0018 , C01G51/40 , C01P2004/62 , C01P2004/64 , C01P2006/22 , C04B20/0004 , C09C3/00 , Y10S516/922 , Y10S516/924 , Y10S516/928 , Y10S516/929 , Y10S516/93 , Y10S516/931
摘要: Methods for manufacturing nanomaterial dispersions, such as nanomaterial concentrates, and related nanotechnology are provided. The nanomaterial concentrates provided can be more cheaply stored and transported compared to non-concentrate nanomaterial forms.
摘要翻译: 提供了制备纳米材料分散体的方法,如纳米材料浓缩物和相关的纳米技术。 与非浓缩纳米材料形式相比,所提供的纳米材料浓缩物可以更便宜地储存和运输。
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4.发明授权Method of forming non-stoichiometric nanoscale powder comprising temperature-processing of a stoichiometric metal compound 有权形成非化学计量的纳米级粉末的方法,其包括化学计量的金属化合物的温度处理公开(公告)号:US07559494B1
公开(公告)日:2009-07-14
申请号:US10698577
申请日:2003-10-31
申请人: Tapesh Yadav , John Alexander
发明人: Tapesh Yadav , John Alexander
CPC分类号: A61L27/06 , A62C31/03 , B01J12/005 , B01J12/02 , B01J19/24 , B01J23/002 , B01J23/08 , B01J23/14 , B01J35/0013 , B01J37/18 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/0894 , B01J2523/00 , B05B1/12 , B22F1/0003 , B22F9/12 , B22F2999/00 , B29C70/58 , B82B1/00 , B82Y25/00 , B82Y30/00 , C01B3/001 , C01B13/145 , C01B19/007 , C01B21/062 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G23/006 , C01G41/02 , C01G53/006 , C01P2002/01 , C01P2002/02 , C01P2002/34 , C01P2002/52 , C01P2002/54 , C01P2002/60 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/38 , C01P2004/51 , C01P2004/54 , C01P2004/61 , C01P2004/62 , C01P2004/64 , C01P2006/10 , C01P2006/12 , C01P2006/40 , C01P2006/60 , C04B2/10 , C04B20/0004 , C04B35/00 , C04B35/62222 , C04B41/52 , C04B41/89 , C08K3/01 , C08K3/08 , C08K2201/011 , G01N27/127 , H01C7/112 , H01F1/0063 , H01F1/401 , H01G4/12 , H01G4/33 , H01M4/02 , H01M4/90 , H01M4/9066 , H01M8/1213 , H01M8/1246 , H01M8/1253 , Y02E60/324 , Y02E60/525 , Y02P40/42 , Y02P70/56 , Y10S977/90 , B22F1/0018 , B22F2202/13 , B01J2523/31 , B01J2523/54 , B01J2523/67 , B01J2523/72 , B01J2523/845 , B01J2523/847
摘要: Nanotechnology methods for creating stoichiometric and non-stoichiometric substances with unusual combination of properties by lattice level composition engineering are described. The modified properties described include electrical conductivity, dielectric constant, dielectric strength, dielectric loss, polarization, permittivity, critical current, superconductivity, piezoelectricity, mean free path, curie temperature, critical magnetic field, permeability, coercive force, magnetostriction, magnetoresistance, hall coefficient, BHmax, critical temperature, melting point, boiling point, sublimation point, phase transformation condition, vapor pressure, anisotropy, adhesion, density, hardness, ductility, elasticity, porosity, strength, toughness, surface roughness, coefficient of thermal expansion, thermal conductivity, specific heat, latent heat, refractive index, absorptivity, emissivity, dispersivity, scattering, polarization, acidity, basicity, catalysis, reactivity, energy density, activation energy, free energy, entropy, frequency factor, bioactivity, biocompatibility, thermal coefficient of any property and pressure coefficient of any property.
摘要翻译: 描述了通过晶格级组成工程产生具有不寻常的特性组合的化学计量和非化学计量物质的纳米技术方法。 所描述的改进的性质包括导电性,介电常数,介电强度,介电损耗,极化,介电常数,临界电流,超导性,压电性,平均自由程,居里温度,临界磁场,磁导率,矫顽力,磁致伸缩,磁阻,霍尔系数 BHmax,临界温度,熔点,沸点,升华点,相变条件,蒸气压,各向异性,粘附力,密度,硬度,延展性,弹性,孔隙率,强度,韧性,表面粗糙度,热膨胀系数,热导率 ,比热,潜热,折射率,吸收率,发射率,分散性,散射,极化,酸度,碱度,催化,反应性,能量密度,活化能,自由能,熵,频率因子,生物活性,生物相容性 财产和压力系数的任何财产。
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公开(公告)号:US07250454B2
公开(公告)日:2007-07-31
申请号:US10434828
申请日:2003-05-09
申请人: Tapesh Yadav , Clayton Kostelecky
发明人: Tapesh Yadav , Clayton Kostelecky
CPC分类号: C04B20/0004 , B01J12/005 , B01J12/02 , B01J19/24 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/0894 , B05B1/12 , B22F1/0003 , B22F1/0018 , B22F1/0044 , B22F1/02 , B22F9/12 , B22F2999/00 , B29C70/58 , B82B1/00 , B82Y20/00 , B82Y25/00 , B82Y30/00 , C01B13/145 , C01B13/363 , C01B19/007 , C01B21/062 , C01B25/08 , C01B32/90 , C01B32/914 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G15/00 , C01G19/00 , C01G19/006 , C01G19/02 , C01G23/006 , C01G41/02 , C01G49/0018 , C01G49/0063 , C01G53/006 , C01P2002/01 , C01P2002/02 , C01P2002/34 , C01P2002/52 , C01P2002/54 , C01P2002/60 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/10 , C01P2004/16 , C01P2004/20 , C01P2004/38 , C01P2004/51 , C01P2004/52 , C01P2004/54 , C01P2004/61 , C01P2004/62 , C01P2004/64 , C01P2004/84 , C01P2004/86 , C01P2006/10 , C01P2006/12 , C01P2006/42 , C04B2/10 , C04B20/1018 , C04B20/1029 , C04B26/02 , C04B26/06 , C04B35/01 , C04B35/265 , C04B35/453 , C04B35/457 , C04B35/547 , C04B35/62222 , C04B35/6265 , C04B35/628 , C04B35/63456 , C04B35/653 , C04B41/009 , C04B41/52 , C04B41/89 , C04B41/90 , C04B2111/00008 , C04B2111/00482 , C04B2111/00844 , C04B2235/3201 , C04B2235/3206 , C04B2235/3241 , C04B2235/3262 , C04B2235/3275 , C04B2235/3279 , C04B2235/3284 , C04B2235/3286 , C04B2235/3298 , C04B2235/3418 , C04B2235/444 , C04B2235/5409 , C04B2235/5454 , C04B2235/549 , C04B2235/6562 , C04B2235/6565 , C08K3/01 , C08K3/013 , C08K3/08 , C08K9/02 , C08K2201/011 , C09C1/00 , C09C1/0081 , C09C1/22 , C09C1/627 , C09C3/08 , C09C3/10 , H01B1/22 , H01C7/105 , H01C7/112 , H01F1/0063 , H01F1/344 , H01F1/36 , H01G4/12 , H01G4/33 , H01M4/5815 , H01M4/9066 , H01M6/20 , H01M6/36 , H01M8/1213 , H01M8/1246 , H01M8/1253 , H01M2004/021 , Y02E60/525 , Y02P40/42 , Y02P70/56 , Y10S977/70 , Y10T428/2998 , Y10T428/31663 , B22F2202/13 , B22F1/0059 , C04B14/30 , C04B20/008 , C04B24/2623 , C04B14/322 , C04B14/325 , C04B14/38 , C04B2103/40 , C04B2103/408 , C04B35/10 , C04B41/4539 , C04B41/5116 , C04B41/5122 , C04B41/4549 , C04B41/5027 , C04B41/5049
摘要: Methods for preparing low resistivity nanocomposite layers that simultaneously offer optical clarity, wear resistance and superior functional performance. Nanofillers and a substance having a polymer are mixed. Both low-loaded and highly-loaded nanocomposites are included. Nanoscale coated and un-coated fillers may be used. Nanocomposite films may be coated on substrates.
摘要翻译: 制备低电阻率纳米复合层的方法,同时提供光学透明度,耐磨性和优异的功能性能。 纳米填料和具有聚合物的物质混合。 包括低负载和高负载的纳米复合材料。 可以使用纳米涂层和未涂覆的填料。 纳米复合膜可以涂覆在基材上。
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公开(公告)号:US20070032572A1
公开(公告)日:2007-02-08
申请号:US10426414
申请日:2003-04-30
申请人: Tapesh Yadav , Clayton Kostelecky
发明人: Tapesh Yadav , Clayton Kostelecky
IPC分类号: C08K9/00
CPC分类号: C04B20/0004 , B01J12/005 , B01J12/02 , B01J19/24 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/0894 , B05B1/12 , B22F1/0003 , B22F1/0018 , B22F1/0044 , B22F1/02 , B22F9/12 , B22F2999/00 , B29C70/58 , B82B1/00 , B82Y20/00 , B82Y25/00 , B82Y30/00 , C01B13/145 , C01B13/363 , C01B19/007 , C01B21/062 , C01B25/08 , C01B32/90 , C01B32/914 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G15/00 , C01G19/00 , C01G19/006 , C01G19/02 , C01G23/006 , C01G41/02 , C01G49/0018 , C01G49/0063 , C01G53/006 , C01P2002/01 , C01P2002/02 , C01P2002/34 , C01P2002/52 , C01P2002/54 , C01P2002/60 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/10 , C01P2004/16 , C01P2004/20 , C01P2004/38 , C01P2004/51 , C01P2004/52 , C01P2004/54 , C01P2004/61 , C01P2004/62 , C01P2004/64 , C01P2004/84 , C01P2004/86 , C01P2006/10 , C01P2006/12 , C01P2006/42 , C04B2/10 , C04B20/1018 , C04B20/1029 , C04B26/02 , C04B26/06 , C04B35/01 , C04B35/265 , C04B35/453 , C04B35/457 , C04B35/547 , C04B35/62222 , C04B35/6265 , C04B35/628 , C04B35/63456 , C04B35/653 , C04B41/009 , C04B41/52 , C04B41/89 , C04B41/90 , C04B2111/00008 , C04B2111/00482 , C04B2111/00844 , C04B2235/3201 , C04B2235/3206 , C04B2235/3241 , C04B2235/3262 , C04B2235/3275 , C04B2235/3279 , C04B2235/3284 , C04B2235/3286 , C04B2235/3298 , C04B2235/3418 , C04B2235/444 , C04B2235/5409 , C04B2235/5454 , C04B2235/549 , C04B2235/6562 , C04B2235/6565 , C08K3/01 , C08K3/013 , C08K3/08 , C08K9/02 , C08K2201/011 , C09C1/00 , C09C1/0081 , C09C1/22 , C09C1/627 , C09C3/08 , C09C3/10 , H01B1/22 , H01C7/105 , H01C7/112 , H01F1/0063 , H01F1/344 , H01F1/36 , H01G4/12 , H01G4/33 , H01M4/5815 , H01M4/9066 , H01M6/20 , H01M6/36 , H01M8/1213 , H01M8/1246 , H01M8/1253 , H01M2004/021 , Y02E60/525 , Y02P40/42 , Y02P70/56 , Y10S977/70 , Y10T428/2998 , Y10T428/31663 , B22F2202/13 , B22F1/0059 , C04B14/30 , C04B20/008 , C04B24/2623 , C04B14/322 , C04B14/325 , C04B14/38 , C04B2103/40 , C04B2103/408 , C04B35/10 , C04B41/4539 , C04B41/5116 , C04B41/5122 , C04B41/4549 , C04B41/5027 , C04B41/5049
摘要: Methods for preparing nanocomposites that enable films with optical clarity, wear resistance and superior functional performance. Nanofillers and a substance having a polymer are mixed. Both low-loaded and highly-loaded nanocomposites are included. Nanocomposite films may be coated on substrates.
摘要翻译: 制备具有光学透明度,耐磨性和优异功能性能的纳米复合材料的方法。 纳米填料和具有聚合物的物质混合。 包括低负载和高负载的纳米复合材料。 纳米复合膜可以涂覆在基材上。
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公开(公告)号:US07007872B2
公开(公告)日:2006-03-07
申请号:US10898852
申请日:2004-07-26
申请人: Tapesh Yadav , Karl Pfaffenbach
发明人: Tapesh Yadav , Karl Pfaffenbach
IPC分类号: B02C19/12
CPC分类号: H01G4/12 , A62C31/03 , B01J12/005 , B01J12/02 , B01J19/24 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/0894 , B05B1/12 , B22F1/0003 , B22F9/12 , B22F2999/00 , B29C70/58 , B32B2309/022 , B82B1/00 , B82Y30/00 , C01B13/145 , C01B19/007 , C01B21/062 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G23/006 , C01G41/02 , C01G53/006 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/51 , C01P2004/54 , C01P2004/64 , C01P2006/12 , C01P2006/40 , C01P2006/80 , C04B2/10 , C04B20/0004 , C04B35/565 , C04B35/62222 , C04B35/638 , C04B41/52 , C04B41/89 , C04B2235/6025 , C08K3/01 , C08K3/08 , C08K2201/011 , C08K2201/016 , C09C3/006 , C09C3/04 , H01C7/112 , H01C17/06513 , H01G4/33 , H01M4/9066 , H01M8/1213 , H01M8/1246 , H01M8/1253 , Y02E60/525 , Y02P70/56 , Y10S977/84 , Y10S977/90 , B22F1/0018 , B22F2202/13
摘要: Methods for changing the surface area of nanomaterials to improve properties, processing and product manufacturing. These methods are useful for oxides, nitrides, carbides, borides, metals, alloys, chalcogenides, and other compositions.
摘要翻译: 改变纳米材料表面积,改善性能,加工和产品制造的方法。 这些方法可用于氧化物,氮化物,碳化物,硼化物,金属,合金,硫属化物和其它组合物。
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8.发明授权Nanotechnology for drug delivery, contrast agents and biomedical implants 有权用于药物输送,造影剂和生物医学植入物的纳米技术公开(公告)号:US06933331B2
公开(公告)日:2005-08-23
申请号:US09790036
申请日:2001-02-20
申请人: Tapesh Yadav , Clayton Kostelecky
发明人: Tapesh Yadav , Clayton Kostelecky
IPC分类号: A61K9/51 , A62C31/03 , B01J12/00 , B01J12/02 , B01J19/24 , B05B1/12 , B22F1/00 , B22F9/12 , B29C70/58 , B82B1/00 , C01B13/14 , C01B19/00 , C01B21/06 , C01B31/36 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/00 , C01G19/00 , C01G23/00 , C01G41/02 , C01G49/00 , C01G53/00 , C04B2/10 , C04B20/00 , C04B35/622 , C04B41/52 , C04B41/89 , C08K3/00 , C08K3/08 , G01N27/12 , G01N27/30 , G01N33/00 , H01C7/112 , H01G4/12 , H01G4/33 , H01M4/02 , H01M4/58 , H01M6/36 , H01M8/12 , B23B5/16
CPC分类号: C04B20/0004 , B01J12/005 , B01J12/02 , B01J19/24 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/0894 , B05B1/12 , B22F1/0003 , B22F1/0018 , B22F1/0044 , B22F1/02 , B22F9/12 , B22F2999/00 , B29C70/58 , B82B1/00 , B82Y20/00 , B82Y25/00 , B82Y30/00 , C01B13/145 , C01B13/363 , C01B19/007 , C01B21/062 , C01B25/08 , C01B32/90 , C01B32/914 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G15/00 , C01G19/00 , C01G19/006 , C01G19/02 , C01G23/006 , C01G41/02 , C01G49/0018 , C01G49/0063 , C01G53/006 , C01P2002/01 , C01P2002/02 , C01P2002/34 , C01P2002/52 , C01P2002/54 , C01P2002/60 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/10 , C01P2004/16 , C01P2004/20 , C01P2004/38 , C01P2004/51 , C01P2004/52 , C01P2004/54 , C01P2004/61 , C01P2004/62 , C01P2004/64 , C01P2004/84 , C01P2004/86 , C01P2006/10 , C01P2006/12 , C01P2006/42 , C04B2/10 , C04B20/1018 , C04B20/1029 , C04B26/02 , C04B26/06 , C04B35/01 , C04B35/265 , C04B35/453 , C04B35/457 , C04B35/547 , C04B35/62222 , C04B35/6265 , C04B35/628 , C04B35/63456 , C04B35/653 , C04B41/009 , C04B41/52 , C04B41/89 , C04B41/90 , C04B2111/00008 , C04B2111/00482 , C04B2111/00844 , C04B2235/3201 , C04B2235/3206 , C04B2235/3241 , C04B2235/3262 , C04B2235/3275 , C04B2235/3279 , C04B2235/3284 , C04B2235/3286 , C04B2235/3298 , C04B2235/3418 , C04B2235/444 , C04B2235/5409 , C04B2235/5454 , C04B2235/549 , C04B2235/6562 , C04B2235/6565 , C08K3/01 , C08K3/013 , C08K3/08 , C08K9/02 , C08K2201/011 , C09C1/00 , C09C1/0081 , C09C1/22 , C09C1/627 , C09C3/08 , C09C3/10 , H01B1/22 , H01C7/105 , H01C7/112 , H01F1/0063 , H01F1/344 , H01F1/36 , H01G4/12 , H01G4/33 , H01M4/5815 , H01M4/9066 , H01M6/20 , H01M6/36 , H01M8/1213 , H01M8/1246 , H01M8/1253 , H01M2004/021 , Y02E60/525 , Y02P40/42 , Y02P70/56 , Y10S977/70 , Y10T428/2998 , Y10T428/31663 , B22F2202/13 , B22F1/0059 , C04B14/30 , C04B20/008 , C04B24/2623 , C04B14/322 , C04B14/325 , C04B14/38 , C04B2103/40 , C04B2103/408 , C04B35/10 , C04B41/4539 , C04B41/5116 , C04B41/5122 , C04B41/4549 , C04B41/5027 , C04B41/5049
摘要: A nanocomposite structure comprising a nanostructured filler or carrier intimately mixed with a matrix, and methods of making such a structure. The nanostructured filler has a domain size sufficiently small to alter an electrical, magnetic, optical, electrochemical, chemical, thermal, biomedical, or tribological property of either filler or composite by at least 20%.
摘要翻译: 纳米复合结构,其包含与基质密切混合的纳米结构填料或载体,以及制备这种结构的方法。 纳米结构填料具有足够小的结构域尺寸,以将填料或复合材料的电,磁,光学,电化学,化学,热学,生物医学或摩擦学特性改变至少20%。
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公开(公告)号:US20050084608A1
公开(公告)日:2005-04-21
申请号:US10898849
申请日:2004-07-26
申请人: Tapesh Yadav , Karl Pfaffenbach
发明人: Tapesh Yadav , Karl Pfaffenbach
IPC分类号: A61K9/51 , A62C31/03 , B01J12/00 , B01J12/02 , B01J19/24 , B05B1/12 , B22F1/00 , B22F9/12 , B29C70/58 , B82B1/00 , C01B13/14 , C01B19/00 , C01B21/06 , C01B31/36 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/00 , C01G23/00 , C01G41/02 , C01G53/00 , C04B2/10 , C04B20/00 , C04B35/565 , C04B35/622 , C04B35/638 , C04B41/52 , C04B41/89 , C08K3/00 , C08K3/08 , C09C3/00 , C09C3/04 , H01C7/112 , H01C17/065 , H01G4/12 , H01G4/33 , H01M8/12 , B05D7/00
CPC分类号: H01G4/12 , A62C31/03 , B01J12/005 , B01J12/02 , B01J19/24 , B01J2219/00094 , B01J2219/00135 , B01J2219/00155 , B01J2219/00177 , B01J2219/0018 , B01J2219/0894 , B05B1/12 , B22F1/0003 , B22F9/12 , B22F2999/00 , B29C70/58 , B32B2309/022 , B82B1/00 , B82Y30/00 , C01B13/145 , C01B19/007 , C01B21/062 , C01B32/956 , C01B35/04 , C01F5/06 , C01F11/06 , C01F17/0043 , C01G23/006 , C01G41/02 , C01G53/006 , C01P2002/72 , C01P2004/03 , C01P2004/04 , C01P2004/51 , C01P2004/54 , C01P2004/64 , C01P2006/12 , C01P2006/40 , C01P2006/80 , C04B2/10 , C04B20/0004 , C04B35/565 , C04B35/62222 , C04B35/638 , C04B41/52 , C04B41/89 , C04B2235/6025 , C08K3/01 , C08K3/08 , C08K2201/011 , C08K2201/016 , C09C3/006 , C09C3/04 , H01C7/112 , H01C17/06513 , H01G4/33 , H01M4/9066 , H01M8/1213 , H01M8/1246 , H01M8/1253 , Y02E60/525 , Y02P70/56 , Y10S977/84 , Y10S977/90 , B22F1/0018 , B22F2202/13
摘要: Methods for modifying the surface characteristics of nanomaterials. These methods are useful for oxides, nitrides, carbides, borides, metals, alloys, chalcogenides, and other compositions.
摘要翻译: 改性纳米材料表面特性的方法。 这些方法可用于氧化物,氮化物,碳化物,硼化物,金属,合金,硫属化物和其它组合物。
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10.发明申请High purity nanoscale metal oxide powders and methods to produce such powders 有权高纯度纳米级金属氧化物粉末及其制备方法公开(公告)号:US20050063889A9
公开(公告)日:2005-03-24
申请号:US10315272
申请日:2002-12-10
申请人: Tapesh Yadav , Karl Pfaffenbach
发明人: Tapesh Yadav , Karl Pfaffenbach
IPC分类号: B01J19/08 , B22F1/00 , B22F9/12 , B22F9/14 , B22F9/30 , C01B13/14 , C01B13/20 , C01B21/06 , C01B21/082 , C01B31/36 , C01F5/06 , C01F17/00 , C01G1/02 , C01G19/00 , C01G25/00 , C01G49/04 , C01G49/06 , C01G49/08 , C01G53/04 , C04B41/89
CPC分类号: B82Y30/00 , B01J19/088 , B01J2219/0886 , B01J2219/0894 , B22F1/0018 , B22F9/12 , B22F9/14 , B22F9/30 , B22F2999/00 , C01B13/14 , C01B13/20 , C01B21/06 , C01B21/0828 , C01B32/956 , C01F5/06 , C01F17/0043 , C01G1/02 , C01G19/00 , C01G25/00 , C01G49/04 , C01G49/06 , C01G49/08 , C01G53/04 , C01P2002/34 , C01P2002/52 , C01P2004/54 , C01P2004/61 , C01P2004/62 , C01P2004/64 , C01P2006/12 , C01P2006/80 , C04B35/62665 , C04B41/89 , C04B2235/3205 , C04B2235/3206 , C04B2235/3208 , C04B2235/3215 , C04B2235/3224 , C04B2235/3227 , C04B2235/3229 , C04B2235/3236 , C04B2235/3249 , C04B2235/3272 , C04B2235/3282 , C04B2235/3286 , C04B2235/3293 , C04B2235/3427 , C04B2235/3804 , C04B2235/3817 , C04B2235/3826 , C04B2235/3852 , C04B2235/3895 , C04B2235/449 , C04B2235/5409 , C04B2235/5445 , C04B2235/5454 , C04B2235/72 , C04B2235/721 , B22F2202/13
摘要: A method of producing high purity nanoscale powders in which the purity of powders produced by the method exceeds 99.99%. Fine powders produced are of size preferably less than 1 micron, and more preferably less than 100 nanometers. Methods for producing such powders in high volume, low-cost, and reproducible quality are also outlined. The fine powders are envisioned to be useful in various applications such as biomedical, sensor, electronic, electrical, photonic, thermal, piezo, magnetic, catalytic and electrochemical products.
摘要翻译: 一种生产高纯度纳米级粉末的方法,其中通过该方法生产的粉末的纯度超过99.99%。 所生产的细粉末的尺寸优选小于1微米,更优选小于100纳米。 还概述了生产这种大量,低成本和可再生质量的粉末的方法。 细粉末可以用于生物医学,传感器,电子学,电学,光子学,热学,压电学,磁学,催化学和电化学产品等各种应用。
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