公开(公告)号：US20040136866A1

公开(公告)日：2004-07-15

申请号：US10608775

申请日：2003-06-26

Applicant: NANOSYS, Inc.

Inventor： George Pontis ,  Walter Stonas ,  Calvin Chow ,  J. Wallace Parce ,  Yaoling Pan ,  Linda T. Romano ,  Shahriar Mostarshed

IPC: G01N033/00

CPC classification number: H01L29/0665 ,  B82Y10/00 ,  C30B29/605 ,  G01N27/4146 ,  H01L29/0673

Abstract: Sensor elements, and devices that incorporate those elements are provided, where the sensor comprises a thin semiconductor nanowire that is disposed upon, and integral to, an insulating substrate, where the nanowire is electrically coupled to a sensing surface that binds or otherwise interacts with an analyte of interest to yield a measurable effect on the nanowire element. The methods utilize extremely thin semiconductor on insulator substrates to provide nanowire dimensions for sensing elements that are fabricated using conventional semiconductor fabrication processes.

Abstract translation: 提供了包含这些元件的传感器元件和器件，其中传感器包括薄的半导体纳米线，该半导体纳米线设置在绝缘衬底上并与绝缘衬底成一体，其中纳米线电耦合到感测表面，该感测表面结合或以其他方式与 感兴趣的分析物对纳米线元素产生可测量的影响。 该方法利用非常薄的绝缘体上半导体衬底提供用于使用常规半导体制造工艺制造的感测元件的纳米线尺寸。

公开(公告)号：US20040118448A1

公开(公告)日：2004-06-24

申请号：US10656802

申请日：2003-09-04

Applicant: NANOSYS, INC.

Inventor： Erik Scher ,  Mihai A. Buretea ,  Calvin Chow ,  Stephen Empedocles ,  Andreas Meisel ,  J. Wallace Parce

IPC: H01L031/00

CPC classification number: H01L31/04 ,  B82Y10/00 ,  B82Y20/00 ,  B82Y30/00 ,  H01L31/0384 ,  H01L51/0036 ,  H01L51/0037 ,  H01L51/4213 ,  H01L51/4226 ,  H01L51/426 ,  Y02E10/549 ,  Y02P70/521

Abstract: Nanocomposite photovoltaic devices are provided that generally include semiconductor nanocrystals as at least a portion of a photoactive layer. Photovoltaic devices and other layered devices that comprise core-shell nanostructures and/or two populations of nanostructures, where the nanostructures are not necessarily part of a nanocomposite, are also features of the invention. Varied architectures for such devices are also provided including flexible and rigid architectures, planar and non-planar architectures and the like, as are systems incorporating such devices, and methods and systems for fabricating such devices. Compositions comprising two populations of nanostructures of different materials are also a feature of the invention.

Abstract translation: 提供纳米复合光伏器件，其通常包括作为光活性层的至少一部分的半导体纳米晶体。 包含核 - 壳纳米结构和/或两组纳米结构的光伏器件和其它分层器件，其中纳米结构不一定是纳米复合材料的一部分，也是本发明的特征。 还提供了用于这种装置的各种架构，包括柔性和刚性架构，平面和非平面架构等，以及结合这种装置的系统，以及用于制造这种装置的方法和系统。 包含两种不同材料的纳米结构群的组合物也是本发明的特征。

公开(公告)号：US20040112964A1

公开(公告)日：2004-06-17

申请号：US10674071

申请日：2003-09-30

Applicant: Nanosys, Inc.

Inventor： Stephen Empedocles ,  David P. Stumbo ,  Chunming Niu ,  Xianfeng Duan

IPC: G06K019/06

CPC classification number: G11C13/025 ,  B82Y10/00 ,  G11C13/02 ,  G11C2213/16 ,  G11C2213/17 ,  G11C2213/18 ,  H01L29/0665 ,  H01L29/0673 ,  H01L29/0676 ,  H01L29/42392 ,  H01L29/775 ,  H01L29/78696

Abstract: 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 applications. Methods for making the macroelectronic substrate materials are disclosed. One application is for transmission an reception of RF signals in small, lightweight sensors. Such sensors can be configured in a distributed sensor network to provide security monitoring. Furthermore, a method and apparatus for a radio frequency identification (RFID) tag is described. The RFID tag includes an antenna and a beam-steering array. The beam-steering array includes a plurality of tunable elements. A method and apparatus for an acoustic cancellation device and for an adjustable phase shifter that are enabled by nanowires are also described.

Abstract translation: 描述了纳入纳米线的宏电子衬底材料。 这些用于为各种不同的应用提供底层电子元件（例如，晶体管等）。 公开了制造宏电子衬底材料的方法。 一个应用是在小型轻型传感器中传输RF信号的接收。 这样的传感器可以配置在分布式传感器网络中，以提供安全监控。 此外，描述了用于射频识别（RFID）标签的方法和装置。 RFID标签包括天线和波束导向阵列。 光束转向阵列包括多个可调谐元件。 还描述了用于通过纳米线实现的声消除装置和可调移相器的方法和装置。

公开(公告)号：US20040026684A1

公开(公告)日：2004-02-12

申请号：US10405914

申请日：2003-04-01

Applicant: Nanosys, Inc.

Inventor： Stephen Empedocles

IPC: H01L029/06

CPC classification number: H01L29/165 ,  B82Y10/00 ,  B82Y20/00 ,  G11C2213/81 ,  H01L29/0688

Abstract: This invention pertains to the synthesis and use of nanowire heterostructures for the storage of information. In certain embodiments, the nanowire heterostructures comprise at least a first material type and a second material type wherein the first material type and the second material type delineate at least two different and distinguishable domains, wherein said domains store coded information. The nanowire heterostructures are particularly useful for identifying, tagging, and tracking compositions, articles of manufacture, or animals. The nanowire heterostructure are also useful for various assays and for storing and recovering information.

Abstract translation: 本发明涉及用于存储信息的纳米线异质结构的合成和应用。 在某些实施例中，纳米线异质结构包括至少第一材料类型和第二材料类型，其中第一材料类型和第二材料类型描绘至少两个不同和可区分的结构域，其中所述域存储编码信息。 纳米线异质结构对于识别，标记和跟踪组合物，制品或动物特别有用。 纳米线异质结构也可用于各种测定和存储和恢复信息。

公开(公告)号：US20030186522A1

公开(公告)日：2003-10-02

申请号：US10239000

申请日：2002-09-10

Applicant: Nanosys, Inc.

Inventor： Xiangfeng Duan ,  Hugh Daniels ,  Chunming Niu ,  Vijendra Sahi ,  James Hamilton ,  Linda T. Romano

IPC: H01L031/0312 ,  H01L051/40 ,  H01L021/20

CPC classification number: H01L51/0048 ,  B01J23/52 ,  B81B2203/0361 ,  B81B2207/015 ,  B81C3/005 ,  B81C99/008 ,  B81C2203/057 ,  B82B3/00 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  G11B5/743 ,  G11C2213/81 ,  H01L29/7869 ,  H01L51/0001 ,  H01L51/0595 ,  H01L2924/0002 ,  Y10S438/962 ,  Y10S977/762 ,  Y10S977/856 ,  Y10S977/857 ,  Y10S977/858 ,  Y10S977/89 ,  H01L2924/00

Abstract: 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 flow based alignment of the nanostructures to provide oriented and positioned nanostructures on surfaces. Also provided are populations of positioned and/or oriented nanostructures, devices that include populations of positioned and/or oriented nanostructures, systems for positioning and/or orienting nanostructures, and related devices, systems and methods.

Abstract translation: 在表面上定位和取向纳米结构，特别是纳米线的方法用于随后的使用或整合。 该方法单独使用基于掩模的工艺，或者与纳米结构的基于流动的对准组合以在表面上提供定向和定位的纳米结构。 还提供了定位和/或定向的纳米结构的群体，包括定位和/或定向纳米结构的群体，用于定位和/或取向纳米结构的系统以及相关设备，系统和方法。

公开(公告)号：US20240101901A1

公开(公告)日：2024-03-28

申请号：US18185090

申请日：2023-03-16

Applicant: Nanosys, Inc.

Inventor： Benjamin NEWMEYER ,  Christian IPPEN ,  Ruiqing MA ,  Diego BARRERA ,  Jesse Robert MANDERS

IPC: C09K11/88 ,  B82Y40/00 ,  C09K11/02 ,  C09K11/08 ,  C09K11/61

CPC classification number: C09K11/883 ,  B82Y40/00 ,  C09K11/02 ,  C09K11/025 ,  C09K11/0883 ,  C09K11/612

Abstract: This disclosure pertains to the field of nanotechnology. The disclosure provides methods of preparing nanostructures with fluoride passivation. The disclosure also provides methods of preparing nanostructures with fluoride and amine passivation. The nanostructures have high quantum yield, narrow emission peak width, tunable emission wavelength, and colloidal stability. Also provided are nanostructures prepared using the methods. And, nanostructure films and molded articles comprising the nanostructures are also provided.

公开(公告)号：US11753587B2

公开(公告)日：2023-09-12

申请号：US16422242

申请日：2019-05-24

Applicant: NANOSYS, Inc.

Inventor： Christian Ippen ,  Jonathan Truskier ,  Jesse Manders

IPC: C09K11/88 ,  C01B19/00 ,  C09K11/02 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y35/00 ,  B82Y40/00

CPC classification number: C09K11/883 ,  C01B19/007 ,  C09K11/02 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y35/00 ,  B82Y40/00 ,  C01P2002/60 ,  C01P2002/84 ,  C01P2006/60

Abstract: The invention relates to highly luminescent nanostructures, particularly highly luminescent nanostructures comprising a ZnSe1-xTex core and ZnS and/or ZnSe shell layers. The invention also relates to methods of producing such nanostructures.

公开(公告)号：US20230203368A1

公开(公告)日：2023-06-29

申请号：US18112694

申请日：2023-02-22

Applicant: NANOSYS, INC.

Inventor： James KUNDRAT ,  David OLMEIJER

IPC: C09K11/02 ,  C09K11/70 ,  C09K11/88 ,  C09D5/22 ,  C09D183/08

CPC classification number: C09K11/025 ,  C09K11/70 ,  C09K11/883 ,  C09D5/22 ,  C09D183/08 ,  C09K11/02 ,  B82Y20/00

Abstract: The present invention provides nanostructure compositions and methods of producing nanostructure compositions. The nanostructure compositions comprise a population of nanostructures, an aminosilicone polymer, an organic resin, and a cation. The present invention also provides nanostructure films comprising a nanostructure layer and methods of making nanostructure films.

公开(公告)号：US20230155075A1

公开(公告)日：2023-05-18

申请号：US18055572

申请日：2022-11-15

Applicant: NANOSYS, INC.

Inventor： Jason HARTLOVE ,  Saket CHADDA ,  Ernest C. LEE ,  Brian KIM ,  Homer ANTONIADIS ,  Ravisubhash TANGIRALA ,  David OLMEIJER

IPC: H01L33/50 ,  H01L25/075 ,  H01L33/60

CPC classification number: H01L33/502 ,  H01L25/0753 ,  H01L33/507 ,  H01L33/60 ,  H01L33/32

Abstract: A light emitting device includes a first optical cavity bounded by cavity walls, a first light emitting diode located in the first optical cavity and configured to emit blue or ultraviolet radiation first incident photons, a first color conversion material located over the first light emitting diode and configured to absorb the first incident photons emitted by the light emitting diode and to generate first converted photons having a longer peak wavelength than a peak wavelength of the first incident photons, and a first color selector located over the first color conversion material and configured to absorb or reflect the first incident photons and to transmit the first converted photons.

公开(公告)号：US20230132423A1

公开(公告)日：2023-05-04

申请号：US18049667

申请日：2022-10-26

Applicant: NANOSYS, INC.

Inventor： Zhen CHEN ,  Saket CHADDA ,  Shuke YAN

IPC: H01L33/44 ,  H01L27/15 ,  H01L33/00 ,  H01L33/42 ,  H01L33/50 ,  H01L33/60 ,  H01L33/62

Abstract: A method of forming a light emitting device includes forming a first doped compound semiconductor layer over a substrate, forming an active layer over the first doped compound semiconductor layer, forming a second doped compound semiconductor layer over the active layer, forming a patterned ion implantation mask layer, and implanting ions of at least one electrically inactive dopant species in portions of the active layer that are not masked by the patterned ion implantation mask layer. An electrically inactive insulating region including a semiconductor material and atoms of the at least one electrically inactive dopant species is formed. Unimplanted portions of the active layer constitute active regions of an array of light emitting diodes.