公开(公告)号：AU2002367868A1

公开(公告)日：2003-10-27

申请号：AU2002367868

申请日：2002-08-01

Applicant: OREGON STATE

Inventor： YAN MINGDI ,  BARTLETT MICHELE

IPC: B01J20/285 ,  B01J20/281 ,  B01J20/283 ,  C08K20060101 ,  C08K3/00 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N30/88 ,  H01L21/31

Abstract: Methods of adhering polymeric materials to a substrate, either directly or through linker molecules, are disclosed. Structures, for example microstructures, including microwells and arrays of microwells, may be readily formed using the methods. In some embodiments, microstructures formed completely from polymeric materials are provided, making it possible to tailor the chemical and physical properties of the microstructures. For example, microwells having a bottom comprising a polar polymeric material and well sides/top comprising a non-polar polymeric material are provided. Biochemical reagents may be easily delivered to such "smart wells" because the intrinsic attraction of the well bottom for the reagents and the intrinsic repulsion between the well sides/top combine to direct the reagents to the wells.

公开(公告)号：WO2012071461A2

公开(公告)日：2012-05-31

申请号：PCT/US2011061936

申请日：2011-11-22

Applicant: OREGON STATE ,  YAN MINGDI ,  WANG XIN ,  JAYAWARDENA H S N

Inventor： YAN MINGDI ,  WANG XIN ,  JAYAWARDENA H S N

IPC: G01N33/533 ,  A61K47/48 ,  C12Q1/68 ,  G01N33/551 ,  G01N33/68

CPC classification number: G01N33/587 ,  A61K49/0043 ,  A61K49/0052 ,  A61K49/0054 ,  A61K49/0065 ,  A61K49/0093 ,  G01N2400/00 ,  Y10T436/143333

Abstract: Disclosed embodiments concern differentiating and classifying one or more targets using a perhalophenylazide-derived nanoparticle probe, or multiple such probes. Particular embodiments concern using statistical analysis to produce score plots illustrating the level of differentiation and/or classification. Also disclosed are methods for making perhalophenylazide-derived nanoparticle probes, individually or by using a microarray technique. Particular embodiments concern methods for using the perhalophenylazide-derived nanoparticle probes to diagnose, detect, and/or treat a disease. Kits comprising the perhalophenylazide-derived nanoparticle probes are also disclosed.

Abstract translation: 所公开的实施方案涉及使用全卤代苯酰叠氮衍生的纳米粒子探针或多种这样的探针来区分和分类一个或多个靶标。 具体实施方式涉及使用统计分析来产生说明分化和/或分类水平的分数图。 还公开了单独地或通过使用微阵列技术来制备来自perhalophenylazide的纳米粒子探针的方法。 具体实施方式涉及使用来自过氯化苯酰基化物的纳米粒子探针来诊断，检测和/或治疗疾病的方法。 还公开了包含来自perhalophenylazide的纳米粒子探针的试剂盒。

公开(公告)号：WO03087206A8

公开(公告)日：2005-03-17

申请号：PCT/US0224675

申请日：2002-08-01

Applicant: OREGON STATE ,  YAN MINGDI ,  BARTLETT MICHELE

Inventor： YAN MINGDI ,  BARTLETT MICHELE

IPC: B01J20/285 ,  B01J20/281 ,  B01J20/283 ,  C08K20060101 ,  C08K3/00 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N30/88 ,  H01L21/31 ,  C08K

CPC classification number: C40B60/14 ,  B01J2219/00432 ,  B01J2219/00443 ,  B01J2219/00531 ,  B01J2219/00585 ,  B01J2219/00596 ,  B01J2219/00605 ,  B01J2219/00612 ,  B01J2219/00619 ,  B01J2219/00626 ,  B01J2219/0063 ,  B01J2219/00637 ,  B01J2219/00659 ,  B01J2219/00711 ,  B01J2219/00722 ,  B01J2219/00725 ,  B82Y30/00 ,  C40B40/10 ,  G03F7/0035 ,  G03F7/008 ,  G03F7/012 ,  G03F7/11

Abstract: Methods of adhering polymeric materials to a substrate, either directly or through linker molecules, are disclosed. Structures, for example, microstructures, including microwells and arrays of microwells, may be readily formed using the methods. In some embodiments, microstructures formed completely from polymeric materials are provided, making it possible to tailor the chemical and physical properties of the microstructures. For example, microwells having a bottom comprising a polar polymeric material and well sides/top comprising a non-polar polymeric material are provided. Biochemical reagents may be easily delivered to such "smart wells" because the intrinsic attraction of the well bottom for the reagents and the intrinsic repulsion between the well sides/top combine to direct the reagents to the wells.

Abstract translation: 公开了将聚合物材料直接或通过连接分子粘附到基底上的方法。 可以使用这些方法容易地形成结构，例如微结构，包括微孔和微孔阵列。 在一些实施方案中，提供了由聚合材料完全形成的微结构，使得可以调整微结构的化学和物理性能。 例如，提供具有包含极性聚合物材料的底部的微孔和包含非极性聚合物材料的阱侧/顶部。 生物化学试剂可以很容易地传递到这种“智能井”，因为井底对于试剂的内在吸引力和阱侧/顶部之间的固有排斥结合起来将试剂引导到井。

公开(公告)号：EP0731909A4

公开(公告)日：1997-09-03

申请号：EP94909569

申请日：1994-02-07

Applicant: OREGON STATE

Inventor： WYBOURNE MARTIN N ,  KEANA JOHN F W ,  CAI SUI XIONG ,  YAN MINGDI ,  WU JONG

IPC: C08J7/12 ,  B01J19/08 ,  C01B31/04 ,  C08F8/34 ,  C23C16/02 ,  G01N21/27 ,  G01N21/45 ,  G01N21/64 ,  G01N21/75 ,  G01N21/77 ,  G01N33/543 ,  G01N33/566 ,  G03F7/20 ,  H01L21/368 ,  G01N21/41

CPC classification number: G01N21/7703 ,  C08F8/32 ,  G01N33/54373 ,  G01N2021/7779 ,  G01N2201/0873 ,  G03F7/2041 ,  C08F8/30 ,  C08F112/08

Abstract: Chemical and biosensors are disclosed. An optical waveguide (11) is used to conduct electromagnetic radiation by total internal reflection in parallel through a reference waveguide portion (12) and at least one analyte waveguide portion (14). The electromagnetic radiation is then converged into an exit beam. The external surface of at least the analyte portion is covalently modified, or functionalized, relative to the reference portion. Resulting interaction of the functionalized surface with molecules comprising an analyte causes a phase change in the electromagnetic radiation passing through the analyte portion relative to the reference portion sufficient to generate a corresponding and measurable interference pattern in the exit beam.

公开(公告)号：AU2002367868A8

公开(公告)日：2003-10-27

申请号：AU2002367868

申请日：2002-08-01

Applicant: OREGON STATE

Inventor： YAN MINGDI ,  BARTLETT MICHELE

IPC: B01J20/285 ,  G03F7/00 ,  B01J20/281 ,  B01J20/283 ,  C08K20060101 ,  C08K3/00 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N30/88 ,  G03F7/004 ,  H01L21/31

Abstract: Methods of adhering polymeric materials to a substrate, either directly or through linker molecules, are disclosed. Structures, for example microstructures, including microwells and arrays of microwells, may be readily formed using the methods. In some embodiments, microstructures formed completely from polymeric materials are provided, making it possible to tailor the chemical and physical properties of the microstructures. For example, microwells having a bottom comprising a polar polymeric material and well sides/top comprising a non-polar polymeric material are provided. Biochemical reagents may be easily delivered to such "smart wells" because the intrinsic attraction of the well bottom for the reagents and the intrinsic repulsion between the well sides/top combine to direct the reagents to the wells.

公开(公告)号：AU3306295A

公开(公告)日：1995-12-14

申请号：AU3306295

申请日：1995-10-04

Applicant: OREGON STATE

Inventor： KEANA JOHN F W ,  WYBOURNE MARTIN N ,  CAI SUI XIONG ,  MANOJ KANSKAR ,  YAN MINGDI

IPC: C08F8/30

公开(公告)号：AT541237T

公开(公告)日：2012-01-15

申请号：AT02806828

申请日：2002-08-01

Applicant: OREGON STATE

Inventor： YAN MINGDI ,  BARTLETT MICHELE

IPC: B01J20/285 ,  G03F7/00 ,  B01J20/281 ,  B01J20/283 ,  C08K20060101 ,  C08K3/00 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N30/88 ,  G03F7/008 ,  G03F7/012 ,  G03F7/11 ,  H01L21/31

Abstract: Methods of adhering polymeric materials to a substrate, either directly or through linker molecules, are disclosed. Structures, for example microstructures, including microwells and arrays of microwells, may be readily formed using the methods. In some embodiments, microstructures formed completely from polymeric materials are provided, making it possible to tailor the chemical and physical properties of the microstructures. For example, microwells having a bottom comprising a polar polymeric material and well sides/top comprising a non-polar polymeric material are provided. Biochemical reagents may be easily delivered to such "smart wells" because the intrinsic attraction of the well bottom for the reagents and the intrinsic repulsion between the well sides/top combine to direct the reagents to the wells.

公开(公告)号：AU6231794A

公开(公告)日：1994-08-15

申请号：AU6231794

申请日：1994-01-21

Applicant: OREGON STATE

Inventor： KEANA JOHN F W ,  WYBOURNE MARTIN N ,  CAI SUI XIONG ,  YAN MINGDI

IPC: C08J7/12 ,  B01J19/08 ,  C01B31/04 ,  C08F8/34 ,  C23C16/02 ,  G01N21/45 ,  G01N21/77 ,  G01N33/543 ,  G03F7/20 ,  H01L21/368 ,  G03C5/00

Abstract: Methods for covalently modifying surfaces of various substrates are disclosed, along with various substrates having surfaces modified by such methods. Candidate surfaces include various polymeric, siliceous, metallic, allotrophic forms of carbon, and semiconductor surfaces. The surfaces are exposed to a reagent, having molecules each comprising a nitrenogenic group and a functionalizing group, in the presence of energized charged particles such as electrons and ions, photons, or heat, which transform the nitrenogenic reagent to a nitrene intermediate. The nitrene covalently reacts with any of various chemical groups present on the substrate surface, thereby effecting nitrene addition of the functionalizing groups to the substrate surface. The functionalizing groups can then participate in downstream chemistry whereby any of a large variety of functional groups, including biological molecules, can be covalently bonded to the surface, thereby dramatically altering the chemical behavior of the surface. Such functionalizations of the surface can be done in a single reactive step or in multiple reactive steps.

公开(公告)号：CA2154444A1

公开(公告)日：1994-08-04

申请号：CA2154444

申请日：1994-01-21

Applicant: OREGON STATE

Inventor： KEANA JOHN F W ,  WYBOURNE MARTIN N ,  CAI SUI XIONG ,  YAN MINGDI

IPC: C08J7/12 ,  B01J19/08 ,  C01B31/04 ,  C08F8/34 ,  C23C16/02 ,  G01N21/45 ,  G01N21/77 ,  G01N33/543 ,  G03F7/20 ,  H01L21/368 ,  B05D3/06 ,  G03F7/00 ,  C07K17/00 ,  C12N11/00 ,  B05D3/02 ,  C07K1/13 ,  C30B31/22 ,  C03C17/28 ,  A61K47/48 ,  G01N33/532 ,  C04B41/82

Abstract: Methods for covalently modifying surfaces of various substrates are disclosed, along with various substrates having surfaces modified by such methods. Candidate surfaces include various polymeric, siliceous, metallic, allotropic forms of carbon, and semiconductor surfaces. The surfaces are exposed to a reagent, having molecules each comprising a nitrenogenic group and a functionalizing group, in the presence of energized charged particles such as electrons and ions, photons, or heat, which transform the nitrenogenic reagent to a nitrene intermediate. The nitrene covalently reacts with any of various chemical groups present on the substrate surface, thereby effecting nitrene addition of the functionalazing groups to the substrate surface. The functionalazing groups can then participate in downstream chemistry whereby any of a large variety of functional groups, including biological molecules, can be covalently bonded to the surface, thereby dramatically altering the chemical behavior of the surface. Such functionalization of the surface can be done in a single reactive step or in multiple reactive steps.

公开(公告)号：EP1576040A4

公开(公告)日：2008-12-10

申请号：EP02806828

申请日：2002-08-01

Applicant: OREGON STATE

Inventor： YAN MINGDI ,  BARTLETT MICHELE

IPC: B01J20/285 ,  G03F7/00 ,  B01J20/281 ,  B01J20/283 ,  C08K20060101 ,  C08K3/00 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N30/88 ,  G03F7/008 ,  G03F7/012 ,  G03F7/11 ,  H01L21/31

CPC classification number: C40B60/14 ,  B01J2219/00432 ,  B01J2219/00443 ,  B01J2219/00531 ,  B01J2219/00585 ,  B01J2219/00596 ,  B01J2219/00605 ,  B01J2219/00612 ,  B01J2219/00619 ,  B01J2219/00626 ,  B01J2219/0063 ,  B01J2219/00637 ,  B01J2219/00659 ,  B01J2219/00711 ,  B01J2219/00722 ,  B01J2219/00725 ,  B82Y30/00 ,  C40B40/10 ,  G03F7/0035 ,  G03F7/008 ,  G03F7/012 ,  G03F7/11

Abstract: Methods of adhering polymeric materials to a substrate, either directly or through linker molecules, are disclosed. Structures, for example, microstructures, including microwells and arrays of microwells, may be readily formed using the methods. In some embodiments, microstructures formed completely from polymeric materials are provided, making it possible to tailor the chemical and physical properties of the microstructures. For example, microwells having a bottom comprising a polar polymeric material and well sides/top comprising a non-polar polymeric material are provided. Biochemical reagents may be easily delivered to such 'smart wells' because the intrinsic attraction of the well bottom for the reagents and the intrinsic repulsion between the well sides/top combine to direct the reagents to the wells.