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1 | US2020143717A1 |
PORTABLE, SELF-ILLUMINATING TRAFFIC SIGN
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Publication/Patent Number: US2020143717A1 | Publication Date: 2020-05-07 | Application Number: 16/671,512 | Filing Date: 2019-11-01 | Inventor: Evans michael j | Assignee: Evans michael j | IPC: G09F13/22 | Abstract: A portable, self-illuminating traffic sign having a sign head with two opposite sides. One side indicates a first traffic signal, and the other side indicates a second traffic signal. Light assemblies are attached to each side of the sign head. The light assemblies emit light that may match the predominant color of one of the sides of the sign head. A battery may be disposed in a pole that connects to the sign head. A handlegrip allows for the sign to be held and provides a switch to allow for the lights to be selectively turned on and off. | |||
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2 | EP3079475B1 |
GLUCOCORTICOID INHIBITORS FOR TREATMENT OF PROSTATE CANCER
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Publication/Patent Number: EP3079475B1 | Publication Date: 2020-10-07 | Application Number: 14869256.9 | Filing Date: 2014-12-11 | Inventor: Arora, Vivek Sawyers, Charles L. Evans michael j Veach, Darren R. | Assignee: Sloan-kettering Institute For Cancer Research | IPC: A61K31/416 | ||||
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3 | EP3608962A1 |
MESA TRENCH ETCH WITH STACKED SIDEWALL PASSIVATION
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Publication/Patent Number: EP3608962A1 | Publication Date: 2020-02-12 | Application Number: 19189836.0 | Filing Date: 2019-08-02 | Inventor: Zhang, Wei Evans michael j Malchow, Douglas Stewart Bereznycky, Paul L. Paik, Namwoong | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of forming an array of photodiodes includes forming a cap layer (102) on a surface (104) of an absorption layer (106). The method includes forming a plurality of spaced apart pixel diffusion areas (116) in the cap layer (102). The method includes forming a mesa trench (124) with opposed sidewalls (126) through the cap layer (102), wherein the mesa trench (124) surrounds each of the pixel diffusion areas (116) separating the pixel diffusion areas (116) from one another. The method includes forming a sidewall passivation layer (128) over the sidewalls (126) of the mesa trench (124) and removing a portion of the sidewall passivation layer (128) to expose a respective contact (118) electrically connected to each of the pixel diffusion areas (116), but leaving the sidewalls (126) of the mesa trench covered with the sidewall passivation layer (128) wherein the contact (118) is open and uncovered for electrical connection. | |||
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4 | US2020052012A1 |
MESA TRENCH ETCH WITH STACKED SIDEWALL PASSIVATION
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Publication/Patent Number: US2020052012A1 | Publication Date: 2020-02-13 | Application Number: 16/057,191 | Filing Date: 2018-08-07 | Inventor: Zhang, Wei Evans michael j Malchow, Douglas Stewart Bereznycky, Paul L. Paik, Namwoong | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of forming an array of photodiodes includes forming a cap layer on a surface of an absorption layer. The method includes forming a plurality of spaced apart pixel diffusion areas in the cap layer. The method includes forming a mesa trench with opposed sidewalls through the cap layer, wherein the mesa trench surrounds each of the pixel diffusion areas separating the pixel diffusion areas from one another. The method includes forming a sidewall passivation layer over the sidewalls of the mesa trench and removing a portion of the sidewall passivation layer to expose a respective contact electrically connected to each of the pixel diffusion areas, but leaving the sidewalls of the mesa trench covered with the sidewall passivation layer wherein the contact is open and uncovered for electrical connection. | |||
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5 | US202052012A1 |
MESA TRENCH ETCH WITH STACKED SIDEWALL PASSIVATION
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Publication/Patent Number: US202052012A1 | Publication Date: 2020-02-13 | Application Number: 20/181,605 | Filing Date: 2018-08-07 | Inventor: Zhang, Wei Malchow, Douglas Stewart Evans michael j Paik, Namwoong Bereznycky, Paul L. | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of forming an array of photodiodes includes forming a cap layer on a surface of an absorption layer. The method includes forming a plurality of spaced apart pixel diffusion areas in the cap layer. The method includes forming a mesa trench with opposed sidewalls through the cap layer, wherein the mesa trench surrounds each of the pixel diffusion areas separating the pixel diffusion areas from one another. The method includes forming a sidewall passivation layer over the sidewalls of the mesa trench and removing a portion of the sidewall passivation layer to expose a respective contact electrically connected to each of the pixel diffusion areas, but leaving the sidewalls of the mesa trench covered with the sidewall passivation layer wherein the contact is open and uncovered for electrical connection. | |||
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6 | US10727267B2 |
Interconnect bump structures for photo detectors
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Publication/Patent Number: US10727267B2 | Publication Date: 2020-07-28 | Application Number: 16/129,402 | Filing Date: 2018-09-12 | Inventor: Zhang, Wei Malchow, Douglas Stewart Evans michael j Huang, Wei Bereznycky, Paul L. Paik, Namwoong | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of assembling a photodetector assembly includes depositing bumps on a read out integrated circuit (ROIC) without depositing bumps on a photodiode array (PDA). The method includes assembling the PDA and ROIC together wherein each bump electrically interconnects the ROIC with a respective contact of the PDA. A photodetector assembly includes a PDA. A ROIC is assembled to the PDA, wherein the ROIC is electrically interconnected with the PDA through a plurality of electrically conductive bumps. Each bump is confined within a respective pocket between the ROIC and a respective contact of the PDA. The disclosed methods can enable focal plane array manufacturers to achieve low-cost production of ultra-fine pitch, large format imaging arrays. | |||
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7 | US2020312900A1 |
INTERCONNECT BUMP STRUCTURES FOR PHOTO DETECTORS
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Publication/Patent Number: US2020312900A1 | Publication Date: 2020-10-01 | Application Number: 16/902,318 | Filing Date: 2020-06-16 | Inventor: Zhang, Wei Malchow, Douglas Stewart Evans michael j Huang, Wei Bereznycky, Paul L. Paik, Namwoong | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of assembling a photodetector assembly includes depositing bumps on a read out integrated circuit (ROIC) without depositing bumps on a photodiode array (PDA). The method includes assembling the PDA and ROIC together wherein each bump electrically interconnects the ROIC with a respective contact of the PDA. A photodetector assembly includes a PDA. A ROIC is assembled to the PDA, wherein the ROIC is electrically interconnected with the PDA through a plurality of electrically conductive bumps. Each bump is confined within a respective pocket between the ROIC and a respective contact of the PDA. The disclosed methods can enable focal plane array manufacturers to achieve low-cost production of ultra-fine pitch, large format imaging arrays. | |||
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8 | EP3624191A1 |
INTERCONNECT BUMP STRUCTURES FOR PHOTO DETECTORS
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Publication/Patent Number: EP3624191A1 | Publication Date: 2020-03-18 | Application Number: 19197065.6 | Filing Date: 2019-09-12 | Inventor: Zhang, Wei Malchow, Douglas Stewart Evans michael j Huang, Wei Bereznycky, Paul L. Paik, Namwoong | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of assembling a photodetector assembly includes depositing bumps on a read out integrated circuit (ROIC) without depositing bumps on a photodiode array (PDA). The method includes assembling the PDA and ROIC together wherein each bump electrically interconnects the ROIC with a respective contact of the PDA. A photodetector assembly includes a PDA. A ROIC is assembled to the PDA, wherein the ROIC is electrically interconnected with the PDA through a plurality of electrically conductive bumps. Each bump is confined within a respective pocket between the ROIC and a respective contact of the PDA. The disclosed methods can enable focal plane array manufacturers to achieve low-cost production of ultra-fine pitch, large format imaging arrays. | |||
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9 | US2020083272A1 |
INTERCONNECT BUMP STRUCTURES FOR PHOTO DETECTORS
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Publication/Patent Number: US2020083272A1 | Publication Date: 2020-03-12 | Application Number: 16/129,402 | Filing Date: 2018-09-12 | Inventor: Zhang, Wei Malchow, Douglas Stewart Evans michael j Huang, Wei Bereznycky, Paul L. Paik, Namwoong | Assignee: Sensors Unlimited, Inc. | IPC: H01L27/146 | Abstract: A method of assembling a photodetector assembly includes depositing bumps on a read out integrated circuit (ROIC) without depositing bumps on a photodiode array (PDA). The method includes assembling the PDA and ROIC together wherein each bump electrically interconnects the ROIC with a respective contact of the PDA. A photodetector assembly includes a PDA. A ROIC is assembled to the PDA, wherein the ROIC is electrically interconnected with the PDA through a plurality of electrically conductive bumps. Each bump is confined within a respective pocket between the ROIC and a respective contact of the PDA. The disclosed methods can enable focal plane array manufacturers to achieve low-cost production of ultra-fine pitch, large format imaging arrays. | |||
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10 | US2020172504A1 |
MODULATORS OF RESISTANT ANDROGEN RECEPTOR
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Publication/Patent Number: US2020172504A1 | Publication Date: 2020-06-04 | Application Number: 16/658,245 | Filing Date: 2019-10-21 | Inventor: Balbas, Minna D. Evans michael j Sawyers, Charles L. Shen, Yang Hosfield, David Greene, Geoffrey L. | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: C07D401/04 | Abstract: The present invention provides compounds useful as modulators, agonists or antagonists of androgen receptor (AR), compositions thereof, and methods of making and using the same. | |||
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11 | US10450294B2 |
Modulators of resistant androgen receptor
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Publication/Patent Number: US10450294B2 | Publication Date: 2019-10-22 | Application Number: 15/594,275 | Filing Date: 2017-05-12 | Inventor: Balbas, Minna D. Evans michael j Sawyers, Charles L. Shen, Yang Hosfield, David Greene, Geoffrey L. | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: C07D401/04 | Abstract: The present invention provides compounds useful as modulators, agonists or antagonists of androgen receptor (AR), compositions thereof, and methods of making and using the same. | |||
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12 | AU2018267594A1 |
Modulators of resistant androgen receptor
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Publication/Patent Number: AU2018267594A1 | Publication Date: 2018-12-06 | Application Number: 2018267594 | Filing Date: 2018-11-16 | Inventor: Evans michael j Sawyers, Charles L. Shen, Yang Greene, Geoffrey L. Hosfield, David Balbas, Minna D. | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: A61K31/4747 | Abstract: The present invention provides compounds useful as modulators, agonists or antagonists of androgen receptor (AR), compositions thereof, and methods of making and using the same. Compounds of the present invention, and pharmaceutically acceptable compositions thereof, are useful in medicine, and particularly for treating any of a variety of diseases, disorders or conditions. | |||
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13 | AU2018267619A1 |
Modulators of resistant androgen receptor
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Publication/Patent Number: AU2018267619A1 | Publication Date: 2018-12-06 | Application Number: 2018267619 | Filing Date: 2018-11-16 | Inventor: Evans michael j Sawyers, Charles L. Shen, Yang Greene, Geoffrey L. Hosfield, David Balbas, Minna D. | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: A61K31/4184 | Abstract: The present invention provides compounds useful as modulators, agonists or antagonists of androgen receptor (AR), compositions thereof, and methods of making and using the same. Compounds of the present invention, and pharmaceutically acceptable compositions thereof, are useful in medicine, and particularly for treating any of a variety of diseases, disorders or conditions. | |||
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14 | EP3079475A4 |
GLUCOCORTICOID INHIBITORS FOR TREATMENT OF PROSTATE CANCER
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Publication/Patent Number: EP3079475A4 | Publication Date: 2017-08-30 | Application Number: 14869256 | Filing Date: 2014-12-11 | Inventor: Sawyers, Charles L Evans michael j Veach, Darren R Arora, Vivek | Assignee: Sloan-Kettering Institute for Cancer Research | IPC: A01N45/00 | ||||
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15 | US9650359B2 |
Modulators of resistant androgen receptor
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Publication/Patent Number: US9650359B2 | Publication Date: 2017-05-16 | Application Number: 15/158,432 | Filing Date: 2016-05-18 | Inventor: Balbas, Minna D. Evans michael j Sawyers, Charles L. Shen, Yang Hosfield, David Greene, Geoffrey L. | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: C07D401/04 | Abstract: The present invention provides compounds useful as modulators, agonists or antagonists of androgen receptor (AR), compositions thereof, and methods of making and using the same. | |||
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16 | US2017320849A1 |
MODULATORS OF RESISTANT ANDROGEN RECEPTOR
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Publication/Patent Number: US2017320849A1 | Publication Date: 2017-11-09 | Application Number: 15/594,275 | Filing Date: 2017-05-12 | Inventor: Balbas, Minna D. Evans michael j Sawyers, Charles L. Shen, Yang Hosfield, David Greene, Geoffrey L. | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: C07D401/04 | Abstract: The present invention provides compounds useful as modulators, agonists or antagonists of androgen receptor (AR), compositions thereof, and methods of making and using the same. | |||
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17 | EP2911666A4 |
MODULATORS OF RESISTANT ANDROGEN RECEPTOR
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Publication/Patent Number: EP2911666A4 | Publication Date: 2016-10-12 | Application Number: 13849577 | Filing Date: 2013-10-25 | Inventor: Balbas, Minna D Hosfield, David Shen, Yang Greene, Geoffrey L Evans michael j Sawyers, Charles L | Assignee: Memorial Sloan-Kettering Cancer Center | IPC: A61K31/4184 | ||||
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18 | EP3079475A2 |
GLUCOCORTICOID INHIBITORS FOR TREATMENT OF PROSTATE CANCER
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Publication/Patent Number: EP3079475A2 | Publication Date: 2016-10-19 | Application Number: 14869256.9 | Filing Date: 2014-12-11 | Inventor: Arora, Vivek Sawyers, Charles L. Evans michael j Veach, Darren R. | Assignee: Sloan-kettering Institute For Cancer Research | IPC: A01N45/00 | ||||
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19 | US2016269715A1 |
PARALLAX CORRECTION OF IMAGING SYSTEM
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Publication/Patent Number: US2016269715A1 | Publication Date: 2016-09-15 | Application Number: 14/657,641 | Filing Date: 2015-03-13 | Inventor: Evans michael j Hansen, Marc Lund, Joshua Zhilinsky, Dmitry Delamere, Michael | Assignee: Sensors Unlimited, Inc. | IPC: H04N13/02 | Abstract: A device for capturing an image includes a first camera having a first lens optically coupled to a first image sensor of a first format. A second camera having a second lens is optically coupled to a second image sensor of a second format larger than the first format. A controller is operatively connected to the first and second cameras for selecting a sub-array of an optical image of the second image sensor to match an optical image captured by the first image sensor based on needed parallax correction between the first and second cameras. | |||
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20 | US2016289261A1 |
GLUCOCORTICOID INHIBITORS FOR TREATMENT OF PROSTATE CANCER
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Publication/Patent Number: US2016289261A1 | Publication Date: 2016-10-06 | Application Number: 15/103,283 | Filing Date: 2014-12-11 | Inventor: Arora, Vivek Sawyers, Charles L. Evans michael j Veach, Darren R. | Assignee: Sloan-Kettering Institute for Cancer Research | IPC: C07J17/00 | Abstract: The present invention encompasses the recognition that reproducible and detectable changes in the level and or activity of Glucocorticoid Receptor (GR) are associated with incidence and/or risk of Castration Resistant Prostate Cancer (CRPC) and/or doubly resistant prostate cancer, specifically in individuals having prostate cancer and on antiandrogen therapy, and provides for the use of GR inhibitors to treat and/or reduce risk of CRPC and/or doubly resistant prostate cancer. In some embodiments, GR inhibitors also have Androgen Receptor (AR) inhibitory activity or are administered in conjunction with AR inhibitors. The present invention also provides technologies for identification and/or characterization of agents to treat and/or reduce risk of CRPC and/or doubly resistant prostate cancer; in some embodiments such agents alter level and/or activity of a GR. In some embodiments, provided agents show effects on a GR's activity of regulating transcription of one or more target genes. The present invention also provides systems for using such agents, for example to treat and/or reduce risk of CRPC and/or doubly resistant prostate cancer. |
3.Current Quota