公开(公告)号：WO2003016961A3

公开(公告)日：2003-02-27

申请号：PCT/US2002/025814

申请日：2002-08-15

Applicant: NEO PHOTONICS CORPORATION ,  HORNE, Craig, R. ,  DEMASCAREL, Pierre, J. ,  HONEKER, Christian, C. ,  CHALONER-GILL, Benjamin ,  LOPEZ, Herman, A. ,  BI, Xiangxin ,  MOSSO, Ronald, J. ,  MCGOVERN, William, E. ,  GARDNER, James, T. ,  KUMAR, Sujeet ,  GILLIAM, James, A. ,  PHAM, Vince ,  EUVRARD, Eric ,  CHIRUVOLU, Shivkumar ,  JUR, Jesse

Inventor： HORNE, Craig, R. ,  DEMASCAREL, Pierre, J. ,  HONEKER, Christian, C. ,  CHALONER-GILL, Benjamin ,  LOPEZ, Herman, A. ,  BI, Xiangxin ,  MOSSO, Ronald, J. ,  MCGOVERN, William, E. ,  GARDNER, James, T. ,  KUMAR, Sujeet ,  GILLIAM, James, A. ,  PHAM, Vince ,  EUVRARD, Eric ,  CHIRUVOLU, Shivkumar ,  JUR, Jesse

IPC: B32B5/16

Abstract: Nanoscale particles, particle coatings/particle arrays and corresponding consolidated material are described based on an ability to vary the composition involving a wide range of metal and/or metalloid elements and corresponding compositions. In particular, metalloid oxides and metal-metalloid compositions are described in the form of improved nanoscale particles and coatings formed from the nanoscale particles. Compositions comprising rare earth metals and dopants/additives with rare earth metals are described. Complex compositions with a range of host compositions and dopants/additives can be formed using the approaches described herein. The particle coating can take the form of particle arrays that range from collections of disbursable primary particles to fused networks of primary particles forming channels that reflect the nanoscale of the primary particles. Suitable materials for optical applications are described along with some optical devices of interest.

公开(公告)号：WO2004110737A2

公开(公告)日：2004-12-23

申请号：PCT/US2004/016534

申请日：2004-05-27

Applicant: NANOGRAM CORPORATION ,  BI, Xiangxin ,  LOPEZ, Herman, A. ,  NARASIMHA, Prasad ,  EUVRARD, Eric ,  MOSSO, Ronald, J.

Inventor： BI, Xiangxin ,  LOPEZ, Herman, A. ,  NARASIMHA, Prasad ,  EUVRARD, Eric ,  MOSSO, Ronald, J.

IPC: B32B

CPC classification number: G02B1/12 ,  B05D1/12 ,  B05D3/06 ,  C03B19/01 ,  C03B19/1415 ,  C03B37/0128 ,  C03B37/01294 ,  C03B37/01406 ,  C03B37/01413 ,  C03B37/0142 ,  C03B2201/10 ,  C03B2201/12 ,  C03B2201/28 ,  C03B2201/31 ,  C03B2207/34 ,  C23C16/401 ,  C23C16/482 ,  C23C16/483 ,  C23C16/56 ,  C23C24/00 ,  C23C24/04 ,  G02B6/036 ,  G02B6/132 ,  Y02P40/57

Abstract: High rate deposition methods comprise depositing a powder coating from a product flow. The product flow results from a chemical reaction within the flow. Some of the powder coatings consolidate under appropriate conditions into an optical coating. The substrate can have a first optical coating onto which the powder coating is placed. The resulting optical coating following consolidation can have a large index-of-refraction difference with the underlying first optical coating, high thickness and index-of-refraction uniformity across the substrate and high thickness and index-of-refraction uniformity between coatings formed on different substrates under equivalent conditions. In some embodiments, the deposition can result in a powder coating of at least about 100 nm in no more than about 30 minutes with a substrate having a surface area of at least about 25 square centimeters.

Abstract translation: 高速沉积方法包括从产品流中沉积粉末涂层。 产物流由流动内的化学反应产生。 一些粉末涂料在合适的条件下固化成光学涂层。 基底可以具有第一光学涂层，其上放置粉末涂层。 固结后的所得光学涂层可以具有与基底的第一光学涂层，基底上的高厚度和折射率均匀性的较大的折射率差异，并且在不同的涂层之间形成的涂层之间的高厚度和折射率均匀性 在相同条件下的底物。 在一些实施方案中，沉积可导致至少约100nm的粉末涂层，其表面积至少约25平方厘米，其表面积至少约为25平方厘米。

公开(公告)号：WO2002089233A3

公开(公告)日：2002-11-07

申请号：PCT/US2002/012069

申请日：2002-04-18

Applicant: NEO PHOTONICS CORPORATION ,  CHALONER-GILL, Benjamin ,  PINOLI, Allison, A. ,  HORNE, Craig, R. ,  MOSSO, Ronald, J. ,  BI, Xiangxin

Inventor： CHALONER-GILL, Benjamin ,  PINOLI, Allison, A. ,  HORNE, Craig, R. ,  MOSSO, Ronald, J. ,  BI, Xiangxin

IPC: H01M4/40

Abstract: Nanoscale and submicron particles have been produced with polyatomic anions. The particles can be crystalline or amorphous. The particles are synthesized in a flowing reactor, preferably with an intense light beam driving the reaction. In preferred embodiments, the particles are highly uniform. Batteries can be formed from submicron and nanoscale lithium metal phosphates. Coatings also can be formed from the particles.

公开(公告)号：WO2004110737A3

公开(公告)日：2005-06-30

申请号：PCT/US2004016534

申请日：2004-05-27

Applicant: NANOGRAM CORP ,  BI XIANGXIN ,  LOPEZ HERMAN A ,  NARASIMHA PRASAD ,  EUVRARD ERIC ,  MOSSO RONALD J

Inventor： BI XIANGXIN ,  LOPEZ HERMAN A ,  NARASIMHA PRASAD ,  EUVRARD ERIC ,  MOSSO RONALD J

IPC: B05D3/02 ,  B05D7/00 ,  B32B20060101 ,  C03B37/018 ,  C23C16/40 ,  C23C16/452 ,  C23C16/453 ,  C23C24/00 ,  C23C24/04 ,  G02B6/10

CPC classification number: G02B1/12 ,  B05D1/12 ,  B05D3/06 ,  C03B19/01 ,  C03B19/1415 ,  C03B37/0128 ,  C03B37/01294 ,  C03B37/01406 ,  C03B37/01413 ,  C03B37/0142 ,  C03B2201/10 ,  C03B2201/12 ,  C03B2201/28 ,  C03B2201/31 ,  C03B2207/34 ,  C23C16/401 ,  C23C16/482 ,  C23C16/483 ,  C23C16/56 ,  C23C24/00 ,  C23C24/04 ,  G02B6/036 ,  G02B6/132 ,  Y02P40/57

Abstract: High rate deposition methods comprise depositing a powder coating from a product flow. The product flow results from a chemical reaction within the flow. Some of the powder coatings consolidate under appropriate conditions into an optical coating. The substrate can have a first optical coating onto which the powder coating is placed. The resulting optical coating following consolidation can have a large index-of-refraction difference with the underlying first optical coating, high thickness and index-of-refraction uniformity across the substrate and high thickness and index-of-refraction uniformity between coatings formed on different substrates under equivalent conditions. In some embodiments, the deposition can result in a powder coating of at least about 100 nm in no more than about 30 minutes with a substrate having a surface area of at least about 25 square centimeters.

Abstract translation: 高速沉积方法包括从产品流中沉积粉末涂层。 产物流由流动内的化学反应产生。 一些粉末涂料在合适的条件下固化成光学涂层。 基底可以具有第一光学涂层，其上放置粉末涂层。 固结后的所得光学涂层可以具有与基底的第一光学涂层，基底上的高厚度和折射率均匀性的较大的折射率差异，并且在不同的涂层之间形成的涂层之间的高厚度和折射率均匀性 在相同条件下的底物。 在一些实施方案中，沉积可导致在不超过约30分钟内至少约100nm的粉末涂层，其中基材的表面积为至少约25平方厘米。

公开(公告)号：WO03060564A2

公开(公告)日：2003-07-24

申请号：PCT/US0240848

申请日：2002-12-19

Applicant: NEOPHOTONICS CORP ,  BI XIANGXIN ,  NEVIS ELIZABETH ANNE ,  MOSSO RONALD J ,  CHAPIN MICHAEL EDWARD ,  CHIRUVOLU SHIVKUMAR ,  KHAN SARDAR HYAT ,  KUMAR SUJEET ,  LOPEZ HERMAN ADRIAN ,  HUY NGUYEN TRAN THE ,  HORNE CRAIG RICHARD ,  BRYAN MICHAEL A ,  EUVRARD ERIC

Inventor： BI XIANGXIN ,  NEVIS ELIZABETH ANNE ,  MOSSO RONALD J ,  CHAPIN MICHAEL EDWARD ,  CHIRUVOLU SHIVKUMAR ,  KHAN SARDAR HYAT ,  KUMAR SUJEET ,  LOPEZ HERMAN ADRIAN ,  HUY NGUYEN TRAN THE ,  HORNE CRAIG RICHARD ,  BRYAN MICHAEL A ,  EUVRARD ERIC

IPC: H01S3/063 ,  H01S3/0941 ,  H01S3/17 ,  G02B

CPC classification number: H01S3/0632 ,  H01S3/0635 ,  H01S3/0637 ,  H01S3/0941 ,  H01S3/176 ,  H01S3/2308

Abstract: Three dimensional optical structures are described that can have various integrations between optical devices within and between layers of the optical structure. Optical turning elements can provide optical pathways between layers of optical devices. Methods are described that provide for great versatility on contouring optical materials throughout the optical structure. Various new optical devices are enabled by the improved optical processing approaches.

Abstract translation: 描述了三维光学结构，其可以在光学结构的层内和层之间的光学器件之间具有各种集成。 光学旋转元件可以提供光学装置的层之间的光学路径。 描述了在整个光学结构中轮廓化光学材料方面具有很大通用性的方法。 通过改进的光学处理方法可以实现各种新的光学器件。

公开(公告)号：WO2003060564A3

公开(公告)日：2003-07-24

申请号：PCT/US2002/040848

申请日：2002-12-19

Applicant: NANO GRAM CORPORATION ,  BI, Xiangxin ,  NEVIS, Elizabeth, Anne ,  MOSSO, Ronald, J. ,  CHAPIN, Michael, Edward ,  CHIRUVOLU, Shivkumar ,  KHAN, Sardar, Hyat ,  KUMAR, Sujeet ,  LOPEZ, Herman, Adrian ,  HUY, Nguyen, Tran, The ,  HORNE, Craig, Richard ,  BRYAN, Michael, A. ,  EUVRARD, Eric

Inventor： BI, Xiangxin ,  NEVIS, Elizabeth, Anne ,  MOSSO, Ronald, J. ,  CHAPIN, Michael, Edward ,  CHIRUVOLU, Shivkumar ,  KHAN, Sardar, Hyat ,  KUMAR, Sujeet ,  LOPEZ, Herman, Adrian ,  HUY, Nguyen, Tran, The ,  HORNE, Craig, Richard ,  BRYAN, Michael, A. ,  EUVRARD, Eric

IPC: G02B6/12

Abstract: Three dimensional optical structures are described that can have various integrations between optical devices within and between layers of the optical structure. Optical turning elements (500) can provide optical pathways between layers (502, 510) of optical devices. Methods are described that provide for great versatility on contouring optical materials throughout the optical structure. Various new optical devices are enabled by the improved optical processing approaches.

公开(公告)号：WO2003016961A2

公开(公告)日：2003-02-27

申请号：PCT/US2002/025814

申请日：2002-08-15

Applicant: NEO PHOTONICS CORPORATION ,  HORNE, Craig, R. ,  DEMASCAREL, Pierre, J. ,  HONEKER, Christian, C. ,  CHALONER-GILL, Benjamin ,  LOPEZ, Herman, A. ,  BI, Xiangxin ,  MOSSO, Ronald, J. ,  MCGOVERN, William, E. ,  GARDNER, James, T. ,  KUMAR, Sujeet ,  GILLIAM, James, A. ,  PHAM, Vince ,  EUVRARD, Eric ,  CHIRUVOLU, Shivkumar ,  JUR, Jesse

Inventor： HORNE, Craig, R. ,  DEMASCAREL, Pierre, J. ,  HONEKER, Christian, C. ,  CHALONER-GILL, Benjamin ,  LOPEZ, Herman, A. ,  BI, Xiangxin ,  MOSSO, Ronald, J. ,  MCGOVERN, William, E. ,  GARDNER, James, T. ,  KUMAR, Sujeet ,  GILLIAM, James, A. ,  PHAM, Vince ,  EUVRARD, Eric ,  CHIRUVOLU, Shivkumar ,  JUR, Jesse

IPC: G02B

CPC classification number: B82Y30/00 ,  C01B13/20 ,  C01B19/004 ,  C01F17/0043 ,  C01G1/00 ,  C01G17/00 ,  C01G23/00 ,  C01P2002/02 ,  C01P2002/50 ,  C01P2004/50 ,  C01P2004/62 ,  C01P2004/64 ,  C01P2004/84 ,  C01P2006/60 ,  C01P2006/80 ,  C03B19/106 ,  C03B19/1415 ,  C03B2207/34 ,  C03C3/062 ,  C03C3/078 ,  C03C3/095 ,  C03C3/097 ,  C03C3/122 ,  C03C3/17 ,  C03C3/253 ,  C03C12/00 ,  C09K11/7706 ,  Y02P40/57 ,  Y10T428/25 ,  Y10T428/256 ,  Y10T428/2949 ,  Y10T428/2982 ,  Y10T428/2991 ,  Y10T428/31609

Abstract: Nanoscale particles, particle coatings/particle arrays and corresponding consolidated material are described based on an ability to vary the composition involving a wide range of metal and/or metalloid elements and corresponding compositions. In particular, metalloid oxides and metal-metalloid compositions are described in the form of improved nanoscale particles and coatings formed from the nanoscale particles. Compositions comprising rare earth metals and dopants/additives with rare earth metals are described. Complex compositions with a range of host compositions and dopants/additives can be formed using the approaches described herein. The particle coating can take the form of particle arrays that range from collections of disbursable primary particles to fused networks of primary particles forming channels that reflect the nanoscale of the primary particles. Suitable materials for optical applications are described along with some optical devices of interest.

Abstract translation: 基于改变涉及宽范围的金属和/或准金属元素和相应组成的组合物的能力来描述纳米颗粒，颗粒涂层/颗粒阵列和相应的固结材料。 特别地，准金属氧化物和金属 - 准金属组合物以改进的纳米级颗粒和由纳米级颗粒形成的涂层的形式描述。 描述了包含稀土金属和稀土金属的掺杂剂/添加剂的组合物。 可以使用本文所述的方法形成具有一系列主体组合物和掺杂剂/添加剂的复合组合物。 颗粒涂层可以采用粒子阵列的形式，其范围从可分离的初级粒子的集合到形成反映初级粒子的纳米尺度的通道的初级粒子的融合网络。 适用于光学应用的材料与一些感兴趣的光学装置一起被描述。

公开(公告)号：WO02089233A2

公开(公告)日：2002-11-07

申请号：PCT/US0212069

申请日：2002-04-18

Applicant: NEO PHOTONICS CORP ,  CHALONER-GILL BENJAMIN ,  PINOLI ALLISON A ,  HORNE CRAIG R ,  MOSSO RONALD J ,  BI XIANGXIN

Inventor： CHALONER-GILL BENJAMIN ,  PINOLI ALLISON A ,  HORNE CRAIG R ,  MOSSO RONALD J ,  BI XIANGXIN

IPC: H01M4/40 ,  H01M4/58 ,  H01M10/0525 ,  H01M10/36 ,  A61K9/14 ,  H01M4/50 ,  H01M4/52

CPC classification number: H01M4/5825 ,  H01M4/38 ,  H01M4/40 ,  H01M10/0525

Abstract: Nanoscale and submicron particles have been produced with polyatomic anions. The particles can be crystalline or amorphous. The particles are synthesized in a flowing reactor, preferably with an intense light beam driving the reaction. In preferred embodiments, the particles are highly uniform. Batteries can be formed from submicron and nanoscale lithium metal phosphates. Coatings also can be formed from the particles.

Abstract translation: 已经用多原子阴离子制备了纳米级和亚微米颗粒。 颗粒可以是结晶或无定形的。 颗粒在流动的反应器中合成，优选用驱动反应的强光束。 在优选的实施方案中，颗粒是高度均匀的。 电池可以由亚微米和纳米尺寸的锂金属磷酸盐形成。 也可以从颗粒形成涂层。

公开(公告)号：WO0232588A9

公开(公告)日：2003-05-08

申请号：PCT/US0132413

申请日：2001-10-16

Applicant: NEOPHOTONICS CORP ,  BI XIANGXIN ,  MOSSO RONALD J ,  CHIRUVOLU SHIVKUMAR ,  KUMAR SUJEET ,  GARDNER JAMES T ,  LIM SEUNG M ,  MCGOVERN WILLIAM E

Inventor： BI XIANGXIN ,  MOSSO RONALD J ,  CHIRUVOLU SHIVKUMAR ,  KUMAR SUJEET ,  GARDNER JAMES T ,  LIM SEUNG M ,  MCGOVERN WILLIAM E

IPC: G02B6/13 ,  B05C19/04 ,  B05C19/06 ,  B05D3/06 ,  C23C4/12 ,  C23C16/40 ,  C23C16/44 ,  C23C16/48 ,  C23C24/10 ,  C23C26/02 ,  B05C5/02 ,  B05C11/00 ,  B05D1/04 ,  B05D1/40 ,  B05D3/00 ,  C23C14/28

CPC classification number: C23C16/402 ,  B05B7/228 ,  B05C9/14 ,  B05D3/06 ,  B22F1/0018 ,  C23C16/482 ,  C23C16/483 ,  C23C18/1266 ,  C23C24/10 ,  C23C26/02

Abstract: Light reactive deposition uses an intense light beam (684) to form particles that are directly coated onto a substrate (680) surface. In some embodiments, a coating apparatus comprising a noncircular reactant inlet (682), optical elements forming a light path (684), a first substrate (680), and a motor connected to the apparatus. The reactant inlet (682) defines a reaction zone with a product stream path continuing from the reaction zone. The substrate (680) intersects the product stream path. Also, operation of the motor moves the first substrate (680) relative to the product stream. Various broad methods are described for using light driven chemical reactions to produce efficiently highly uniform coatings.

Abstract translation: 光反应沉积使用强光束（684）形成直接涂覆在基底（680）表面上的颗粒。 在一些实施例中，包括非圆形反应物入口（682），形成光路（684）的光学元件，第一基板（680）和连接到该设备的马达的涂覆设备。 反应物入口（682）限定反应区，产物流路径与反应区连续。 基板（680）与产品流路相交。 此外，电动机的操作使第一衬底（680）相对于产品流移动。 描述了使用光驱化学反应来产生高效均匀涂层的各种广泛的方法。

公开(公告)号：WO0244765A3

公开(公告)日：2003-01-30

申请号：PCT/US0145762

申请日：2001-10-26

Applicant: NANOGRAM CORP ,  BRYAN MICHAEL A ,  BI XIANGXIN

Inventor： BRYAN MICHAEL A ,  BI XIANGXIN

IPC: B29D11/00 ,  B32B9/04 ,  C03B19/14 ,  C03B37/012 ,  C03B37/014 ,  C03B37/027 ,  C04B35/14 ,  C23C16/48 ,  C23C26/00 ,  C23C28/00 ,  C23C28/04 ,  G02B1/02 ,  G02B1/04 ,  G02B6/02 ,  G02B6/12 ,  G02B6/13 ,  G02B6/132 ,  G02B6/43 ,  B05D1/36 ,  B05D5/00 ,  C08J7/18 ,  G02B6/00 ,  G02B6/10

CPC classification number: G02B6/12002 ,  B32B9/04 ,  C03B19/1415 ,  C03B19/1423 ,  C03B19/1484 ,  C03B37/01413 ,  C03B37/0142 ,  C03B37/01486 ,  C03B37/027 ,  C03B2203/34 ,  C03B2205/40 ,  C03B2207/02 ,  C03B2207/34 ,  C03B2207/66 ,  C03B2207/85 ,  C04B35/14 ,  C04B2235/3201 ,  C04B2235/3203 ,  C04B2235/3215 ,  C04B2235/3217 ,  C04B2235/3224 ,  C04B2235/3225 ,  C04B2235/3227 ,  C04B2235/3232 ,  C04B2235/3234 ,  C04B2235/3244 ,  C04B2235/3251 ,  C04B2235/3258 ,  C04B2235/3287 ,  C04B2235/3293 ,  C04B2235/3294 ,  C04B2235/3296 ,  C04B2235/3298 ,  C04B2235/3409 ,  C04B2235/3418 ,  C04B2235/3463 ,  C23C16/483 ,  C23C26/00 ,  G02B6/02042 ,  G02B6/13 ,  G02B6/132 ,  G02B2006/12147 ,  G02B2006/1215 ,  G02B2006/12176 ,  Y02P40/57

Abstract: Monolithic optical structures include a plurality of layer with each layer having an isolated optical pathway confined within a portion of the layer. The monolithic optical structure can be used as an optical fiber preform. Alternatively or additionally, the monolithic optical structure can include integrated optical circuits within one or more layers of the structure. Monolithic optical structures can be formed by performing multiple passes of a substrate through a flowing particle stream. The deposited particles form an optical material following consolidation. Flexible optical fibers include a plurality of independent light channels extending along the length of the optical fiber. The fibers can be pulled from an appropriate preform.

Abstract translation: 单片光学结构包括多个层，每个层具有限定在层的一部分内的隔离的光学路径。 单片光学结构可以用作光纤预制件。 或者或另外，单片光学结构可以包括在该结构的一个或多个层内的集成光学电路。 单片光学结构可以通过通过流动的颗粒流进行多次通过基板来形成。 沉积的颗粒在固结后形成光学材料。 柔性光纤包括沿着光纤的长度延伸的多个独立光通道。 纤维可以从适当的预成型件拉出。