Патент США № | 8709125 |
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Автор(ы) | Allemand |
Дата выдачи | 29 апреля 2014 г. |
A method of forming monodispersed metal nanowires comprising: forming a reaction mixture including a metal salt, a capping agent and a quaternary ammonium chloride in a reducing solvent at a first temperature; and forming metal nanowires by reducing the metal salt in the reaction mixture.
Авторы: | Pierre-Marc Allemand (San Jose, CA) | ||||||||||
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Патентообладатель: |
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Заявитель: | Cambrios Technologies Corporation (Sunnyvale, CA) |
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ID семейства патентов | 39512231 | ||||||||||
Номер заявки: | 13/040,549 | ||||||||||
Дата регистрации: | 04 марта 2011 г. |
Document Identifier | Publication Date | |
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US 20110185852 A1 | Aug 4, 2011 | |
Application Number | Filing Date | Patent Number | Issue Date | ||
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11766552 | Jun 21, 2007 | ||||
60815627 | Jun 21, 2006 | ||||
Класс патентной классификации США: | 75/343; 419/24 |
Класс совместной патентной классификации: | B22F 9/24 (20130101); C30B 7/14 (20130101); C30B 29/60 (20130101); B22F 2998/00 (20130101); B22F 2999/00 (20130101); B22F 2998/00 (20130101); B22F 1/0025 (20130101) |
Класс международной патентной классификации (МПК): | B22F 1/00 (20060101); B22F 9/00 (20060101); C21B 15/04 (20060101); C22B 5/20 (20060101); C22C 1/04 (20060101) |
Область поиска: | ;75/343 ;419/24 |
3167429 | January 1965 | Levy |
3552969 | January 1971 | Henn et al. |
4486350 | December 1984 | Bauer et al. |
4539041 | September 1985 | Figlarz et al. |
5565143 | October 1996 | Chan |
6221222 | April 2001 | Kipp et al. |
6597947 | July 2003 | Inoue et al. |
7048806 | May 2006 | Ochomogo et al. |
8269214 | September 2012 | Smigelski, Jr. et al. |
2005/0056118 | March 2005 | Xia et al. |
2007/0034052 | February 2007 | Vanheusden et al. |
2007/0074316 | March 2007 | Alden et al. |
2007/0160647 | July 2007 | Pritchard et al. |
2008/0003130 | January 2008 | Xia et al. |
2008/0143906 | June 2008 | Allemand et al. |
2008/0210052 | September 2008 | Allemand |
2008/0229612 | September 2008 | Sommer et al. |
2008/0259262 | October 2008 | Jones et al. |
2009/0052029 | February 2009 | Dai et al. |
2009/0098405 | April 2009 | Matsunami |
2009/0130433 | May 2009 | Takada |
2009/0196788 | August 2009 | Wang et al. |
2009/0228131 | September 2009 | Wolk et al. |
2009/0242231 | October 2009 | Miyagisima et al. |
2009/0321113 | December 2009 | Allemand et al. |
2010/0034693 | February 2010 | Li |
2010/0307792 | December 2010 | Allemand et al. |
2011/0024159 | February 2011 | Allemand et al. |
1623954 | Feb 2006 | EP | |||
2008-190006 | Aug 2008 | JP | |||
2009/017852 | Feb 2009 | WO | |||
Ducamp-Sanguesa et al., "Synthesis and Characterization of Fine and Monodisperse Silver Particles of Uniform Shape," Journal of Solid State Chemistry 100:272-280, 1992. cited by applicant . Filankembo et al., "Is the Anion the Major Parameter in the Shape Control of Nanocrystals?," J Phys Chem B 107 (30):7492-7500, 2003. cited by applicant . Jana et al., "Wet Chemical Synthesis of Silver Nanorods and Nanowires of Controllable Aspect Ratio," Chem Commun 617-618, 2001. cited by applicant . Nikoobakht et al., "Preparation and Growth Mechanism of Gold Nanorods (NRs) Using Seed-Mediated Growth Method," Chem Mater 15(10):1957-1962, 2003. cited by applicant . Silvert et al., "Preparation of colloidal silver dispersions by the polyol process. Part I--Synthesis and characterization", J Mater Chem 6(4): 573-577, 1996. cited by applicant . Silvert et al., "Preparation of colloidal silver dispersions by the polyol process. Part I--Synthesis and characterization", J Mater Chem 7(2): 293-299, 1997. cited by applicant . Sun et al., "Large-Scale Synthesis of Uniform Silver Nanowires Through a Soft, Self-Seeding, Polyol Process," Adv Mater 14(11):833-837, Jun. 5, 2002. cited by applicant . Sun et al., "Polyol Synthesis of Uniform Silver Nanowires: A Plausible Growth Mechanism and the Supporting Evidence", Nano Letters 3(7): 955-960, 2003. cited by applicant . Sun et al., "Uniform Silver Nanowires Synthesis by Reducing AGNO3 with Ethylene Glycol in the Presence of Seeds and Poly(Vinyl Pyrrolidone)", Chem Mater 14(11): 4736-4745, 2002. cited by applicant . Wiley et al., "Polyol Synthesis of Silver Nanostructures: Control of Product Morphology with Fe(II) or Fe(III) Species", Langmuir 21(18): 8077-8080, Aug. 30, 2005. cited by applicant . Wiley et al., "Polyol Synthesis of Silver Nanoparticles: Use of Chloride and Oxygen to Promote the Formation of Single-Crystal, Truncated Cubes and Tetrahedrons", Nano Letters 4(9): 1733-1739, 2004. cited by applicant . Wiley et al., "Polyol Synthesis of Silver Nanoparticles: Use of Chloride and Oxygen to Promote the Formation of Single-Crystal, Truncated Cubes and Tetrahedrons", Nano Letters 4(10): 2057, 2004 [correction to 4(9): 1733-1739, 2004]. cited by applicant . Yang et al., "Anisotropic Syntheses of Boat-Shaped Core-Shell Au-Ag Nanocrystals and Nanowires," Nanotechnology 17:2304-2310, Apr. 11, 2006. cited by applicant . Advanced Nano Products, "Nano silver ink for ink jet printing," retrieved Jun. 2, 2009, from http://www.anapro.com/english/product/nano.sub.--silver.asp, 2 pages. cited by applicant . Chen et al., "The influence of seeding conditions and shielding gas atmosphere on the synthesis of silver nanowires through the polyol process," Nanotechnology 17: 466-474, 2006. cited by applicant . International Search Report, dated Aug. 10, 2010, for International Application No. PCT/US2010/033618, 14 pages. cited by applicant . Kim et al., "Platonic Gold Nanocrystals," Angew. Chem. 116: 3759-3763, 2004. cited by applicant . Okada et al., "Development of Fine Circuit Pattern Formation Process Using Nano-Metal Ink," SEI Technical Review 62: 54-57, Jun. 2006. cited by applicant . Sun et al., "Crystalline Silver Nanowires by Soft Solution Processing," Nano Letters 2(2): 165-168, 2002. cited by applicant . Sun et al., "Shape-Controlled Synthesis of Gold and Silver Nanoparticles," Science 298: 2176-2179, Dec. 13, 2002. cited by applicant . Sun et al., "Template-Engaged Replacement Reaction: A One-Step Approach to the Large-Scale Synthesis of Metal Nanostructures with Hollow Interiors," Nano Letters 2(5): 481-485, 2002. cited by applicant . Tang et al., "Rapid and high-yield synthesis of silver nanowires using air-assisted polyol method with chloride ions," Colloids and Surfaces A: Physicochemical and Engineering Aspects 338: 33-39, 2009. cited by applicant . ULVAC Materials Division Inc., "Nano-metal ink," Apr. 7, 2011, retrieved from http://www.ulvac.co.jp/eng/products/ materials/nanoparticle-technology.html, 2 pages. cited by applicant . ULVAC Materials Divisions Inc., "Establishment of the World's First Consortium for the Development and Commercialization of Next-Generation Functional Circuit Boards Using Nano Paste," Oct. 23, 2002, retrieved from http://www.ulvac.co.jp/eng/information/news/2002/20021023.html, 3 pages. cited by applicant. |