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Xiaojiang Wang Phones & Addresses

  • 9300 Mockingbird Ln, Saline, MI 48176
  • Cleveland, OH
  • Akron, OH
  • Rolla, MO

Work

Company: The university of akron Sep 2012 Position: Postdoctoral research associate

Education

School / High School: The University of Akron- Akron, OH 2012 Specialities: Ph. D. in Polymer Engineering

Skills

Multi-step organic/polymer synthesis • GC • FTIR • NMR • Mass spectrometry • Chromatography • GPC • DSC • TGA • DMTA • XRD • XPS • SEM • AFM • Tensile test • Brookfield viscometer • Rheometer • Fushion UV curing

Resumes

Resumes

Xiaojiang Wang Photo 1

Project Lead_Research Chemist

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Location:
Ann Arbor, MI
Industry:
Printing
Work:
Avomeen Analytical Services Mar 2014 - Feb 2017
Project Leader_Formulation and Development

Flint Group Mar 2014 - Feb 2017
Project Lead_Research Chemist

The University of Akron Sep 2012 - Mar 2014
Postdoctoral Research Associate

Nippon Paint Feb 2004 - Jul 2004
Coating Chemist
Education:
The University of Akron 2006 - 2012
Doctorates, Doctor of Philosophy, Engineering, Philosophy
Missouri University of Science and Technology 2004 - 2006
Master of Science, Masters, Chemistry
Institute of Chemistry, Chinese Academy of Sciences, China 2000 - 2003
Master of Science, Masters, Chemistry
Sichuan University 1996 - 2000
Bachelors, Bachelor of Science, Chemistry
Skills:
Polymers
Coatings
Paint
Chemistry
Resin
Adhesives
Polymer Science
Uv
Chemicals
R&D
Materials
Research
Root Cause Analysis
Project Management
Chemical Engineering
Organic Chemistry
Polymer Characterization
Polyurethane
Emulsion Polymerization
Pigments
E Coating
Latex
Powder Coating
Water Borne Coating
Polyester
Epoxy
Astm Standards
Gpc
Nmr
Ftir
Dsc
Tga
Xrd
Rheometer
Dmta
Xps
Sem
Tem
Coating Formulation
Automotive Coating
Solvent Borne Coating
Product Development
Product Innovation
Xiaojiang Wang Photo 2

Xiaojiang Wang

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Xiaojiang Wang Photo 3

Xiaojiang Wang Akron, OH

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Work:
The University of Akron

Sep 2012 to 2000
Postdoctoral Research Associate

The University of Akron
Akron, OH
Aug 2006 to Aug 2012
Research Assistant

Department of Chemistry, University of Missouri-Rolla, MO
Rolla, MO
Aug 2004 to Aug 2006
Research Assistant

Nippon Paint (China)

Feb 2004 to Jul 2004
Coating Chemist

Institute of Chemistry, Chinese Academy of Sciences

Sep 2000 to Dec 2003
Research Assistant

Department of Chemistry, Sichuan University
Chengdu, China
Feb 2000 to Jun 2000
Research Assistant

Education:
The University of Akron
Akron, OH
2012
Ph. D. in Polymer Engineering

University of Missouri
Rolla, MO
2006
M. S. in Organic Chemistry

Chinese Academy of Sciences
2003
M. S. in Polymer Science

Sichuan University
2000
B. S. in Chemistry

Skills:
Multi-step organic/polymer synthesis, GC, FTIR, NMR, Mass spectrometry, Chromatography, GPC, DSC, TGA, DMTA, XRD, XPS, SEM, AFM, Tensile test, Brookfield viscometer, Rheometer, Fushion UV curing

Publications

Us Patents

Polymer Nanoencapsulated Acid-Catalyzed Sol-Gel Silica Monoliths

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US Patent:
20100204355, Aug 12, 2010
Filed:
Sep 5, 2008
Appl. No.:
12/676123
Inventors:
Nicholas Leventis - Rolla MO, US
Sudhir Mulik - Rolla MO, US
Xiaojiang Wang - Akron OH, US
International Classification:
C08G 18/00
B05D 3/02
US Classification:
521155, 4273855
Abstract:
Macroporous monolithic silica aerogels having mesoporous walls are produced via an acid-catalyzed sol-gel process from tetramethoxysilane (TMOS) using a triblock co-polymer (Pluronic P123) as a structure-directing agent and 1,3,5-trimethylbenzene (TMB) as a micelle-swelling reagent. Pluronic P 123 was removed by solvent extraction, and monoliths were obtained by removing the pore-filling solvent with liquid CO, which was removed under supercritical conditions. The resulting materials are more robust compared to base-catalyzed silica aerogels of similar density. Mechanical properties can be further improved by reacting a di-isocyanate with the silanol groups on the macro and mesoporous surfaces. The polymer forms a conformal coat on the macropores and blocks access to the mesopores of templated samples, so that BET surface areas decrease dramatically.

Solid Polymer Electrolytes With Increased Polymer Polarizability For Solid-State Lithium Batteries

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US Patent:
20230053067, Feb 16, 2023
Filed:
Aug 10, 2021
Appl. No.:
17/398419
Inventors:
- Dearborn MI, US
Xiaojiang Wang - Saline MI, US
Andrew Robert Drews - Ann Arbor MI, US
Venkataramani Anandan - Farmington Hills MI, US
International Classification:
H01M 10/0565
H01M 10/0525
C08K 5/435
C08K 5/315
Abstract:
A solid polymer electrolyte having a reinforcing substrate, a polymer having ethylene oxide portions and hydrocarbon portions with pendent functional groups having high relative permittivity for an electrochemical cell is provided. The solid polymer electrolyte may provide good ionic conductivity at room temperature and good mechanical strength.

Pharyngeal Or Buccal Cavity Rinse And Process Of Use Thereof

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US Patent:
20170196783, Jul 13, 2017
Filed:
Jan 13, 2017
Appl. No.:
15/405745
Inventors:
Jehangir Gowani - Ann Arbor MI, US
Ian Vonwald - Ann Arbor MI, US
Xiaojiang Wang - Ann Arbor MI, US
Evan Boyst - Ann Arbor MI, US
Shri Thanedar - Ann Arbor MI, US
International Classification:
A61K 8/20
A61K 33/20
A61Q 11/00
A61K 33/40
A61K 8/97
A61K 8/22
A61K 9/00
A61K 36/03
Abstract:
A storage stable package is provided that includes a polymeric bottle having a volume filled with an aqueous saline composition acidified with an acid to a pH of 2 to 9 and having a hypertonic saline concentration relative to saliva and blood, or an aqueous hydrogen peroxide composition acidified with an acid to a pH of 2.7 to 5.3 and having a hydrogen peroxide concentration 0.5 to 3 total weight percent, either to achieve a storage stability at 20 degrees Celsius of the composition of at least 10 weeks. The aqueous composition is independent of a synthetic antimicrobial. A cap is provided that is complementary a package opening for selectively sealing the aqueous saline composition within the volume. A process for treating an infection of a pharyngeal or buccal cavity is provided that includes rinsing with one of the aqueous saline composition. The aqueous saline composition is then expectorated.

Warming Gel System And Method

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US Patent:
20160192901, Jul 7, 2016
Filed:
Jan 7, 2015
Appl. No.:
14/591907
Inventors:
- Hewitt TX, US
Xiaojiang Wang - Ann Arbor MI, US
Evan Boyst - Ann Arbor MI, US
International Classification:
A61B 8/00
A61K 49/22
Abstract:
A method of applying ultrasound gel including the steps of removing a barrier separating a reagent and a lubricating gel. The reagent and the lubricating gel are separated within a single packaging. Mixing the reagent and the lubricating gel to produce a lubricating gel mixture. The mixing causes an exothermic reaction configured to selectively heat the lubricating gel to a desired temperature. Opening the packaging to permit the release of the lubricating gel mixture and then distributing the lubricating gel mixture onto a patient.
Xiaojiang Wang from Saline, MI Get Report