会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明申请
    • Integrated circuits having organic-inorganic dielectric materials and methods for forming such integrated circuits
    • 具有有机 - 无机介电材料的集成电路和用于形成这种集成电路的方法
    • US20100215839A1
    • 2010-08-26
    • US12588364
    • 2009-10-13
    • Juha T. RantalaJason S. ReidT. Teemu TormanenNungavram Viswanathan
    • Juha T. RantalaJason S. ReidT. Teemu TormanenNungavram Viswanathan
    • H05K3/00
    • H01L21/3121C07F7/0874C07F7/12C07F7/123C07F7/1804C07F7/1888C09D183/04C09D183/14H01L21/02131H01L21/02211H01L21/02282H01L21/02304H01L21/02348H01L21/0271H01L21/31133H01L21/3122H01L21/31629H01L21/31633H01L21/76802H01L21/76808H01L21/76825
    • A method for making an integrated circuit is disclosed comprising depositing alternating regions of electrically conductive material and hybrid organic inorganic dielectric material on a substrate, wherein an area of dielectric material is formed by hydrolyzing a plurality of precursors to form a hybrid organic inorganic material comprised of a silicon oxide backbone and having an organic substituent bound to the backbone, and depositing the hybrid organic inorganic material on a substrate, removing the hybrid organic-inorganic material in selected areas, and depositing an electrically conductive material in the selected areas, wherein one of the precursors is a compound of the general formula R1R2R3SiR4, wherein R1, R2, R3 are each bound to the Si and are independently an aryl group, a cross linkable group, or an alkyl group having from 1-14 carbons, and wherein R4 is selected from the group consisting of an alkoxy group, an acyloxy group, an —OH group or a halogen. Also disclosed is a method for forming a hybrid organic inorganic layer on a substrate, comprising: hydrolyzing a silane selected from the group consisting of a tetraalkoxysilane, a trialkoxysilane, a trichlorosilane, a dialkoxysilane, and a dichlorosilane, with a compound of the general formula: R1R2R4MR5, wherein R1, R2 and R4 are independently an aryl, alkyl, alkenyl, epoxy or alkynyl group, wherein at least one of R1, R2 and R4 is fully or partially fluorinated, wherein M is selected from group 14 of the periodic table, and wherein R5 is either an alkoxy group, OR3, or a halogen (X).
    • 公开了一种用于制造集成电路的方法,其包括将导电材料和混合有机无机介电材料的交替区域沉积在基底上,其中介电材料的区域通过水解多个前体而形成,以形成由 氧化硅主链并具有与主链结合的有机取代基,并将杂化有机无机材料沉积在基材上,去除所选区域中的杂化有机 - 无机材料,以及在选定区域中沉积导电材料,其中 前体是通式为R 1 R 2 R 3 SiR 4的化合物,其中R 1,R 2,R 3各自与Si结合,独立地为芳基,可交联基团或具有1-14个碳原子的烷基,其中R4为 选自烷氧基,酰氧基,-OH基或卤素。 还公开了一种在基材上形成杂化有机无机层的方法,包括:将通式(IV)的化合物与四烷氧基硅烷,三烷氧基硅烷,三氯硅烷,二烷氧基硅烷和二氯硅烷选自下列的硅烷水解: :R1R2R4MR5,其中R1,R2和R4独立地是芳基,烷基,烯基,环氧基或炔基,其中R1,R2和R4中的至少一个是完全或部分氟化的,其中M选自周期表的第14族 ,其中R 5为烷氧基,OR 3或卤素(X)。
    • 5. 发明授权
    • MEMS with flexible portions made of novel materials
    • US07071520B2
    • 2006-07-04
    • US10176478
    • 2002-06-21
    • Jason S. Reid
    • Jason S. Reid
    • G01L1/12
    • B81B3/0078B81B2201/045B81B2203/0118
    • MEMS devices are provided that are capable of movement due to a flexible portion formed of unique materials for this purpose. The MEMS device can have a flexible portion formed of a nitride or oxynitride of at least one transition metal, and formed of a nitride or oxynitride of at least one metalloid or near metalloid; a flexible portion formed of a single transition metal nitride or oxynitride and in the absence of any other metal or metalloid nitrides; a flexible portion formed of one or more late transition metal nitrides or oxynitrides; a flexible portion formed of a single transition metal in nitride form, and an additional metal substantially in elemental form; or a flexible portion formed of at least one metalloid nitride or oxynitride. The MEMS devices can be any device, though preferably one with a flexible portion such as an accelerometer, DC relay or RF switch, optical cross connect or optical switch, or micromirror arrays for direct view and projection displays. The flexible portion (e.g. the hinge of the micromirror) is preferably formed by sputtering a metal and/or metalloid target in nitrogen ambient so as to result in a sputtered hinge. It is also possible to form other parts of the MEMS device (e.g structural parts that do not flex).
    • 7. 发明授权
    • Poly(organosiloxane) materials and methods for hybrid organic-inorganic dielectrics for integrated circuit applications
    • 聚(有机硅氧烷)材料和用于集成电路应用的混合有机 - 无机电介质的方法
    • US07473650B2
    • 2009-01-06
    • US11606941
    • 2006-12-01
    • Juha T. RantalaJason S. ReidT. Teemu T. TormanenNungavram S. ViswanathanArto L. T. Maaninen
    • Juha T. RantalaJason S. ReidT. Teemu T. TormanenNungavram S. ViswanathanArto L. T. Maaninen
    • H01L21/31H01L21/469
    • H01L21/3122H01L21/02126H01L21/02216H01L21/02282H01L21/76802H01L21/76808H01L21/7681H01L2221/1031
    • A method for making an integrated circuit is disclosed as comprising depositing alternating regions of electrically conductive and dielectric materials on a substrate, wherein an area of dielectric material is formed by: a silane precursor having a fully or partially fluorinated first organic group comprising an unsaturated carbon-carbon double bond, the fully or partially fluorinated organic group bound to silicon in the silane precursor; forming from the silane precursor a hybrid organic-inorganic material having a molecular weight of at least 500 on a substrate; and increasing the molecular weight of the hybrid material by exposure to heat, electromagnetic radiation or electron beam so as to break the unsaturated carbon-carbon double bond and cross link via the fully or partially fluorinated organic group. Also disclosed is a method for making an integrated circuit is disclosed as comprising: reacting a compound of the general formula X3MOR33, where X3 is a halogen, M is silicon, and OR3 is alkoxy; with a compound of the general formula R1M1; where R1 is selected from alkyl, alkenyl, aryl and alkynyl and wherein R1 is partially or fully fluorinated; and M1 is an element from group I of the periodic table; so as to form a compound of the general formula R1MOR33; hydrolyzing and condensing R1MOR33 so as to form a hybrid organic-inorganic material with a molecular weight of at least 500; depositing the hybrid organic-inorganic material on a substrate as an insulator in an integrated circuit; depositing, before or after depositing the hybrid material, an electrically conductive material within the integrated circuit.
    • 公开了一种用于制造集成电路的方法,包括在衬底上沉积导电和介电材料的交替区域,其中介电材料的区域通过以下形成:具有完全或部分氟化的第一有机基团的硅烷前体,其包含不饱和碳 碳双键,全部或部分氟化的有机基团与硅烷前体中的硅键合; 从硅烷前体形成在基材上分子量至少为500的杂化有机 - 无机材料; 并且通过暴露于热,电磁辐射或电子束来增加杂化材料的分子量,以便通过完全或部分氟化的有机基团破坏不饱和碳 - 碳双键和交联。 还公开了一种用于制造集成电路的方法,其包括:使通式X3MOR33的化合物,其中X3是卤素,M是硅,OR3是烷氧基; 与通式R 1 M 1的化合物反应; 其中R 1选自烷基,烯基,芳基和炔基,并且其中R 1部分或完全氟化; M1是周期表第I组元素; 以形成通式R 1 MOR 33的化合物; 水解和冷凝R1MOR33,以形成分子量至少为500的杂化有机 - 无机材料; 将杂化有机 - 无机材料沉积在集成电路中作为绝缘体的衬底上; 在沉积杂化材料之前或之后沉积集成电路内的导电材料。