Lin Zhao

age ~47

from Glen Allen, VA

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Also known as:

Li N Zhao
Lin Hao
Zhao Lin

Connected to:

Lin Zhao Phones & Addresses

Glen Allen, VA
Richmond, VA
Boston, MA
Ann Arbor, MI
Gayville, SD

Work

Company:

Fushi society
2011
Position:

Co-founder and director

Education

School / High School:

Ume University
2004
Specialities:

MSc in Entrepreneurship and Business Dynamics

Skills

Proficiency in MS Office suites (Word • Excel • Power Point • Access and Outlook) • Lotus Notes • QuickBooks • ADP • and quick learner in computer based soft...

Lawyers & Attorneys

Lin Zhao - Lawyer

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ISLN:

1000803540

Admitted:

2017

Us Patents

Energy Efficient Soundproofing Window Retrofits
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US Patent:

20220223130, Jul 14, 2022
Filed:

Oct 21, 2021
Appl. No.:

17/507491
Inventors:

- Cambridge MA, US
Gang Chen - Carlisle MA, US
Xuanhe Zhao - Allston MA, US
Elise M. Strobach - Clear Lake WI, US
Bikramjit S. Bhatia - Cambridge MA, US
Lin Zhao - Revere MA, US
Sungwoo Yang - Chattanooga TN, US
Lee A. Weinstein - Somerville MA, US
Thomas A. Cooper - Boston MA, US
Shaoting Lin - Cambridge MA, US
International Classification:

G10K 11/168
B32B 7/027
B32B 7/12
B32B 9/04
E06B 9/24
Abstract:

Described herein are window retrofits including a monolithic silica aerogel slab having (i) an average haze value of

High-Performance Sub-Ambient Radiative Cooling Enabled By Optically Selective And Thermally Insulating Polyethylene Aerogel
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US Patent:

20210123558, Apr 29, 2021
Filed:

Aug 29, 2020
Appl. No.:

17/006826
Inventors:

- Cambridge MA, US
Bikram BHATIA - Cambridge MA, US
Lin ZHAO - Revere MA, US
Evelyn N. WANG - Cambridge MA, US
International Classification:

F16L 59/02
F25B 17/08
F25B 27/00
C09D 5/33
C09D 123/06
C09D 7/61
F16L 59/08
Abstract:

Recent progress in passive radiative cooling technologies have significantly improved cooling performance under direct sunlight. Performance of existing passive radiative coolers for air conditioning and portable refrigeration applications can be improved with a material that is solar reflective and infrared transparent that can also have a low thermal conductivity.

Solar Thermal Aerogel Receiver And Materials Therefor
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US Patent:

20210094834, Apr 1, 2021
Filed:

Nov 6, 2020
Appl. No.:

17/091141
Inventors:

- Cambridge MA, US
Evelyn N. Wang - Cambridge MA, US
Svetlana Boriskina - Winchester MA, US
Lee A. Weinstein - Somerville MA, US
Sungwoo Yang - Chattanooga TN, US
Bikramjit S. Bhatia - Cambridge MA, US
Lin Zhao - Revere MA, US
Elise M. Strobach - Clear Lake WI, US
Thomas A. Cooper - Boston MA, US
David M. Bierman - Cambridge MA, US
Xiaopeng Huang - Mountain View CA, US
James Loomis - Valparaiso FL, US
International Classification:

C01B 33/158
B01J 13/00
F24S 80/65
F24S 80/56
F24S 20/20
C04B 14/06
C01B 33/14
F24S 70/20
F24S 10/95
F24S 23/70
Abstract:

A silica aerogel having a mean pore size less than 5 nm with a standard deviation of 3 nm. The silica aerogel may have greater than 95% solar-weighted transmittance at a thickness of 8 mm for wavelengths in the range of 250 nm to 2500 nm, and a 400 C. black-body weighted specific extinction coefficient of greater than 8 m/kg for wavelengths of 1.5 μm to 15 μm. Silica aerogel synthesis methods are described. A solar thermal aerogel receiver (STAR) may include an opaque frame defining an opening, an aerogel layer disposed in the opaque frame, with at least a portion of the aerogel layer being proximate the opening, and a heat transfer fluid pipe in thermal contact with and proximate the aerogel layer. A concentrating solar energy system may include a STAR and at least one reflector to direct sunlight to an opening in the STAR.

Energy Efficient Soundproofing Window Retrofits
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US Patent:

20190333490, Oct 31, 2019
Filed:

Apr 25, 2019
Appl. No.:

16/394447
Inventors:

- Cambridge MA, US
Gang Chen - Carlisle MA, US
Xuanhe Zhao - Allston MA, US
Elise M. Strobach - Clear Lake WI, US
Bikramjit S. Bhatia - Cambridge MA, US
Lin Zhao - Revere MA, US
Sungwoo Yang - Chattanooga TN, US
Lee A. Weinstein - Somerville MA, US
Thomas A. Cooper - Boston MA, US
Shaoting Lin - Cambridge MA, US
International Classification:

G10K 11/168
B32B 7/027
B32B 7/12
B32B 9/04
E06B 9/24
Abstract:

Described herein are window retrofits including a monolithic silica aerogel slab having (i) an average haze value of

Solar Thermal Aerogel Receiver And Materials Therefor
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US Patent:

20190100439, Apr 4, 2019
Filed:

Feb 24, 2017
Appl. No.:

16/079172
Inventors:

- Cambridge MA, US
Evelyn N. Wang - Cambridge MA, US
Svetlana Boriskina - Winchester MA, US
Lee A. Weinstein - Somerville MA, US
Sungwoo Yang - Chattanooga TN, US
Bikramjit S. Bhatia - Cambridge MA, US
Lin Zhao - Revere MA, US
Elise M. Strobach - Clear Lake WI, US
Thomas A. Cooper - Boston MA, US
David M. Bierman - Cambridge MA, US
Xiaopeng Huang - Mountain View CA, US
James Loomis - Valparaiso FL, US
International Classification:

C01B 33/158
B01J 13/00
F24S 80/65
F24S 80/56
F24S 23/70
F24S 20/20
F24S 10/95
F24S 70/20
Abstract:

A silica aerogel having a mean pore size less than 5 nm with a standard deviation of 3 nm. The silica aerogel may have greater than 95% solar-weighted transmittance at a thickness of 8 mm for wavelengths in the range of 250 nm to 2500 nm, and a 400 C. black-body weighted specific extinction coefficient of greater than 8 m/kg for wavelengths of 1.5 μm to 15 μm. Silica aerogel synthesis methods are described. A solar thermal aerogel receiver (STAR) may include an opaque frame defining an opening, an aerogel layer disposed in the opaque frame, with at least a portion of the aerogel layer being proximate the opening, and a heat transfer fluid pipe in thermal contact with and proximate the aerogel layer. A concentrating solar energy system may include a STAR and at least one reflector to direct sunlight to an opening in the STAR.