Search

Linghui Wu

from Alpharetta, GA
Age ~38
Get Report
Also known as:
Hui Wu Ling
Related to:
Tiyan Wu, 89Li Liu, 39Xue LiChujun Wu, 55Linjia Wu, 44Lifeng Wu, 50Li Bing, 54Wu Kai, 40Li Lifang, 42Fangzhen Wu, 39
Connected to:
Ada M Wu, 60Alain W Wu, 55Angelina R Wu, 54Anshih Wu, 35Apple Y Wu, 58Artie K Wu, 71Beilei Wu, 41Caifen Wu, 56Carl G Wu, 43Carol S Wu, 96

Linghui Wu Phones & Addresses

  • Alpharetta, GA
  • Buford, GA
  • Flowery Branch, GA
  • San Ramon, CA
  • Lake Grove, NY
  • Stony Brook, NY

Work

Company: Prof. nicole sampson May 2008 Position: Research assistant

Education

School / High School: Stony Brook University- Stony Brook, NY 2007 Specialities: Ph. D in Chemistry

Skills

organic synthesis • Ring Opening metathesis polymerization • polymer synthesis and characterization • Protein extraction/purification • peptide synthesis • glycosylation • cell culture • immunofluoresence assay • NMR • MS • UV/vis • fluorometer • microscopy • HPLC • light scattering • SEC/GPC • chromatography • SDS-PAGE • microplate reader • microsoft office

Resumes

Resumes

Linghui Wu Photo 1

Linghui Wu Lake Grove, NY

View page
Work:
Prof. Nicole Sampson

May 2008 to 2000
Research Assistant
Department of Chemistry
Stony Brook, NY
2007 to 2009
Teaching Assistant
Prof. Yaqing Feng

2005 to 2007
Undergraduate Research Assistant
Tasly pharmaceuticals, Inc

Jun 2006 to Sep 2006
Trainee
Education:
Stony Brook University
Stony Brook, NY
2007 to 2013
Ph. D in Chemistry
School of Chemical Engineering and Technology, Tianjin University
2007
B. S. in Chemical Engineering
Skills:
organic synthesis, Ring Opening metathesis polymerization, polymer synthesis and characterization, Protein extraction/purification, peptide synthesis, glycosylation, cell culture, immunofluoresence assay, NMR, MS, UV/vis, fluorometer, microscopy, HPLC, light scattering, SEC/GPC, chromatography, SDS-PAGE, microplate reader, microsoft office

Publications

Us Patents

Curable Nano-Composites For Additive Manufacturing

View page
US Patent:
20200024421, Jan 23, 2020
Filed:
Sep 26, 2019
Appl. No.:
16/583427
Inventors:
- Lawrenceville GA, US
Linghui WU - Lawrenceville GA, US
International Classification:
C08K 3/04
H05K 1/09
B33Y 80/00
C09D 4/00
C08F 222/10
C08F 220/18
B33Y 70/00
Abstract:
Curable liquid nano-composites for additive manufacturing of objects having precisely controlled mechanical and electronic properties are provided. Methods of making the curable nano-composites, and methods of additive manufacturing using the nano-composites are also provided. Additionally, objects made from additive manufacturing using the curable nano-composites are provided. In one or more embodiments the nano-composites can contain one or more cross-linkable monomers or oligomers; a photo-initiator; and a nanoparticle. In some embodiments the curable liquid nano-composite can have a viscosity prior to curing of about 1-150 cP at room temperature and pressure. The curable nano-composite can be used for additive manufacturing by printing the curable nano-composite. The printed objects can include various opto-electronic devices such as conductive coatings, electro-chromic devices, electronic interconnects, antennae, RFID tags, transistors, diodes, photovoltaics, light emitting diodes, and capacitors.

Curable Nano-Composites For Additive Manufacturing

View page
US Patent:
20180030235, Feb 1, 2018
Filed:
Dec 10, 2015
Appl. No.:
15/534848
Inventors:
- Lawrenceville GA, US
Linghui WU - Lawrenceville GA, US
International Classification:
C08K 3/04
H05K 1/09
Abstract:
Curable liquid nano-composites for additive manufacturing of objects having precisely controlled mechanical and electronic properties are provided. Methods of making the curable nano-composites, and methods of additive manufacturing using the nano-composites are also provided. Additionally, objects made from additive manufacturing using the curable nano-composites are provided. In one or more embodiments the nano-composites can contain one or more cross-linkable monomers or oligomers; a photo-initiator; and a nanoparticle. In some embodiments the curable liquid nano-composite can have a viscosity prior to curing of about 1-150 cP at room temperature and pressure. The curable nano-composite can be used for additive manufacturing by printing the curable nano-composite. The printed objects can include various opto-electronic devices such as conductive coatings, electrochromic devices, electronic interconnects, antennae, RFID tags, transistors, diodes, photovoltaics, light emitting diodes, and capacitors.

Curable Nano-Composites For Additive Manufacturing Of Lenses

View page
US Patent:
20170368742, Dec 28, 2017
Filed:
Dec 10, 2015
Appl. No.:
15/534880
Inventors:
- Lawrenceville GA, US
Linghui WU - Lawrenceville GA, US
International Classification:
B29C 64/112
C08F 220/18
B33Y 70/00
B29D 11/00
G02B 1/04
C09D 4/00
Abstract:
Curable liquid nano-composites for additive manufacturing of lenses are provided. Methods of making the curable nano-composites, and methods of additive manufacturing using the nano-composites are also provided. Additionally, objects made from additive manufacturing using the curable nano-composites are provided. In one or more embodiments, the nano-composites can contain one or more cross-linkable monomers or oligomers; a photo-initiator; and a nanoparticle. In some embodiments the curable liquid nano-composite can have a viscosity prior to curing of about 1-150 cP at room temperature and pressure The curable nano-composite can be used for additive manufacturing by printing the curable nano-composite. The printed objects can include optical lenses such as both prescription and non-prescription ophthalmic lenses.
Control profile
Linghui Wu from Alpharetta, GA, age ~38 Get Report