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Sean Emerson Doris

from San Francisco, CA
Age ~35
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Also known as:
Sean E Doris
Related to:
Sundaram U Uppiliappan, 69James R Allmond, 92Mary J Allmond, 89Jo Allmond, 92Susan Marie Redmond, 66John W WestTamara D Webber, 63Marjorie S Doris, 90Donald D Redmond, 68Mark P Doris, 65Cindy E Prescott, 65Andrew D Redmond, 38Kelly M Doris, 33Susan M Doris, 66Robert M Doris, 94Sarah E Redmond, 35
Connected to:
Amanda Doris, 33Ashley T Doris, 33Bernard Doris, 92Brenda L Doris, 57Colleen A Doris, 63Ellen E Doris, 67Glenda J Doris, 84Grace E Doris, 77Jamie M Doris, 43Joel C Doris, 39

Sean Doris Phones & Addresses

  • San Francisco, CA
  • Mebane, NC
  • Berkeley, CA
  • Raleigh, NC
  • Chapel Hill, NC
  • Apex, NC

Work

Company: Parc Jan 2017 to Jun 2018 Position: Postdoctoral researcher

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of California, Berkeley 2012 to 2016 Specialities: Philosophy, Chemistry

Skills

Surface Chemistry • Research • Nanotechnology • Materials Science • Analytical Chemistry • Electrochemistry • Nmr • Nanomaterials • Scanning Electron Microscopy • Tutoring • Nanoparticles • Mass Spectrometry • Statistics

Interests

Science and Technology • Education

Industries

Research

Resumes

Resumes

Sean Doris Photo 1

Member Of Research Staff

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Location:
Berkeley, CA
Industry:
Research
Work:
Parc Jan 2017 - Jun 2018
Postdoctoral Researcher
Parc Jan 2017 - Jun 2018
Member of Research Staff
Lawrence Berkeley National Laboratory Jun 2012 - Dec 2016
Graduate Student Researcher and Instructor
Education:
University of California, Berkeley 2012 - 2016
Doctorates, Doctor of Philosophy, Philosophy, Chemistry University of North Carolina at Chapel Hill 2008 - 2012
Bachelors, Bachelor of Science, Chemistry University of California
Skills:
Surface Chemistry
Research
Nanotechnology
Materials Science
Analytical Chemistry
Electrochemistry
Nmr
Nanomaterials
Scanning Electron Microscopy
Tutoring
Nanoparticles
Mass Spectrometry
Statistics
Interests:
Science and Technology
Education

Publications

Us Patents

Additive Manufacturing Compositions And Methods For The Same

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US Patent:
20210283837, Sep 16, 2021
Filed:
Mar 11, 2020
Appl. No.:
16/816105
Inventors:
- Palo Alto CA, US
Anne Plochowietz - Palo Alto CA, US
Kent Evans - Sunnyvale CA, US
Sean E. Doris - San Francisco CA, US
Assignee:
PALO ALTO RESEARCH CENTER INCORPORATED - Palo Alto CA
International Classification:
B29C 64/188
G06T 17/00
B29C 64/118
B29C 64/153
C23C 18/54
Abstract:
Additive manufacturing compositions and methods for fabricating a conductive article with the same are provided. The additive manufacturing composition may include a 3D printable material and a metal precursor disposed in the 3D printable material. The metal precursor may include a metal salt, a metal particle, or combinations thereof. The method may include forming a first layer of the article on a substrate, where the first layer includes the additive manufacturing composition, forming a second layer of the article adjacent the first layer, and binding the first layer with the second layer to fabricate the article. The method may also include plating a metal on at least a portion of the article to fabricate the conductive article.

Polymeric Materials For Electrochemical Cells And Ion Separation Processes

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US Patent:
20200306745, Oct 1, 2020
Filed:
Jun 10, 2020
Appl. No.:
16/898052
Inventors:
- Oakland CA, US
Changyi Li - Berkeley CA, US
Ashleigh Ward - Berkeley CA, US
Sean E. Doris - San Francisco CA, US
Peter D. Frischmann - Berkeley CA, US
International Classification:
B01J 41/13
C07D 491/22
C07D 493/22
C08J 5/22
B01D 71/62
B01D 71/82
B01D 69/02
C07D 241/46
H01M 4/36
H01M 4/38
H01M 4/58
H01M 8/0239
H01M 8/18
Abstract:
Polymers of intrinsic microporosity are provided herein. Disclosed polymers of intrinsic microporosity include modified polymers of intrinsic microporosity that include negatively charged sites or crosslinking between monomer units. Systems making use of polymers of intrinsic microporosity and modified polymers of intrinsic microporosity are also described, such as electrochemical cells and ion separation systems. Methods for making and using polymers of intrinsic microporosity and modified polymers of intrinsic microporosity are also disclosed.

Printed Sensor With Vibrant Colorimetric Particles

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US Patent:
20200200684, Jun 25, 2020
Filed:
Dec 20, 2018
Appl. No.:
16/227807
Inventors:
- PALO ALTO CA, US
MAHATI CHINTAPALLI - MOUNTAIN VIEW CA, US
ELI BURGER - NOTTAWA, US
WARREN JACKSON - SAN FRANCISCO CA, US
SEAN EMERSON DORIS - SAN FRANCISCO CA, US
JESSICA LOUIS BAKER RIVEST - PALO ALTO CA, US
ERIC COCKER - REDWOOD CITY CA, US
ANTONIO WILLIAMS - CONCORD CA, US
CRYSTAL PHAM - ANAHEIM CA, US
International Classification:
G01N 21/78
G01N 33/52
Abstract:
A colorimetric sensor has a first material deposited on a surface, and sensing particles on a surface of the first material, wherein the sensing particles comprise sensing species dispersed into porous host structures, such that at least a portion of the sensing particles is exposed to an ambient environment, wherein the first material attaches the sensing particles to surface. A method of forming a colorimetric sensor including depositing a first material onto a substrate, providing porous sensing particles, wherein the sensing particles comprise sensing species dispersed into a porous host structure, and embedding the porous sensing particles onto a surface of the deposited first material, wherein the first material attaches the sensing particles to the substrate such that at least a portion of the sensing particles is exposed to an ambient environment.

Control Of Particle Layer Depth And Thickness During Powder Printing

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US Patent:
20200180328, Jun 11, 2020
Filed:
Dec 5, 2018
Appl. No.:
16/210656
Inventors:
- Palo Alto CA, US
Kent A. Evans - Sunnyvale CA, US
Sean E. Doris - San Francisco CA, US
International Classification:
B41J 11/00
C09D 11/54
B41J 2/21
C09D 11/30
Abstract:
A printing system includes a liquid ejector configured to deposit a curable layer on a surface of a substrate, the layer having a free surface and an interface between the layer and the substrate. A pre-curing device pre-cures the layer such that a first region closer to the free surface is less cured than a second region closer to the interface. The curing device includes a pre-curing initiator source configured to provide a pre-curing initiator that polymerizes the layer. The curing device also includes a pre-curing inhibitor source configured to deliver an inhibitor that inhibits polymerization of the layer. A particle delivery device delivers particles to the layer after the layer is pre-cured.

High Sensitivity Ion Selective Sensors Implemented Through Feedback Circuitry

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US Patent:
20200072786, Mar 5, 2020
Filed:
Aug 30, 2018
Appl. No.:
16/117593
Inventors:
- Palo Alto CA, US
Sean Emerson Doris - San Francisco CA, US
Robert A. Street - Palo Alto CA, US
Assignee:
Palo Alto Research Center Incorporated - Palo Alto CA
International Classification:
G01N 27/414
H03F 3/45
Abstract:
The following relates generally to ion sensing using organic electrochemical transistors (OECTs). In one aspect, a device comprises: an amplification portion including an OECT; a feedback portion that receives a differential voltage from the amplification portion and outputs a feedback signal; and a readout portion which receives the feedback signal and outputs an output voltage.

Microchip Charge Patterning

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US Patent:
20180294232, Oct 11, 2018
Filed:
Jun 14, 2018
Appl. No.:
16/008961
Inventors:
- PALO ALTO CA, US
JenPing Lu - Fremont CA, US
Armin R. Volkel - Mountain View CA, US
Bing R. Hsieh - Pleasanton CA, US
Gregory L. Whiting - Mountain View CA, US
Sean E. Doris - San Francisco CA, US
International Classification:
H01L 23/544
H01L 23/00
Abstract:
A method of forming a charge pattern on a microchip includes depositing a material on the surface of the microchip, and immersing the microchip in a fluid to develop charge in or on the material through interaction with the surrounding fluid.

System And Method For Adjusting Carbon Dioxide Concentration In Indoor Atmospheres

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US Patent:
20180257027, Sep 13, 2018
Filed:
Jan 26, 2018
Appl. No.:
15/880780
Inventors:
- Palo Alto CA, US
Jessica Louis Baker Rivest - Palo Alto CA, US
Gabriel Iftime - Dublin CA, US
Mahati Chintapalli - Mountain View CA, US
Junhua Wei - Mountain View CA, US
Sean Emerson Doris - San Francisco CA, US
Assignee:
Palo Alto Research Center Incorporated - Palo Alto CA
International Classification:
B01D 53/32
C08J 5/22
F24F 3/16
Abstract:
An electrochemical device suited to modifying a carbon dioxide concentration in an interior space includes a cathode chamber with an inlet which receives a feed gas containing carbon dioxide. A reduction catalyst layer in the cathode chamber reduces carbon dioxide in the gas to form an ionic carrier species. An anode chamber with an outlet outputs a gas comprising carbon dioxide. A solid electrolyte membrane spaces the anode chamber from the cathode chamber and transports the ionic carrier species between the cathode chamber and the anode chamber. The membrane includes an ionic liquid. An oxidation catalyst layer in the anode chamber oxidizes the ionic carrier species to form carbon dioxide. A voltage source provides a voltage difference across the membrane.

Polymeric Materials For Electrochemical Cells And Ion Separation Processes

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US Patent:
20180085744, Mar 29, 2018
Filed:
Apr 1, 2016
Appl. No.:
15/563557
Inventors:
- Oakland CA, US
Changyi Li - Berkeley CA, US
Ashleigh Ward - Berkeley CA, US
Sean E. Doris - San Francisco CA, US
Peter D. Frischmann - Berkeley CA, US
International Classification:
B01J 41/13
H01M 8/18
H01M 8/0239
H01M 4/58
H01M 4/38
H01M 4/36
C08J 5/22
C07D 493/22
C07D 491/22
Abstract:
Polymers of intrinsic microporosity are provided herein. Disclosed polymers of intrinsic microporosity include modified polymers of intrinsic microporosity that include negatively charged sites or crosslinking between monomer units. Systems making use of polymers of intrinsic microporosity and modified polymers of intrinsic microporosity are also described, such as electrochemical cells and ion separation systems. Methods for making and using polymers of intrinsic microporosity and modified polymers of intrinsic microporosity are also disclosed.
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Sean Emerson Doris from San Francisco, CA, age ~35 Get Report