Shahyaan K Desai from Gainesville, FL, age 47

Resumes

Chief Technology Officer At Mezmeriz

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Location:

Ithaca, NY

Industry:

Semiconductors

Work:

Mezmeriz Inc. since Jan 2008
Founder and CTO

Education:

Cornell University 2004 - 2007
MS, Materials Science Cornell University 1997 - 1999
B.S, Materials Science

Skills:

Mems
Nanofabrication
Optics
Nanotechnology
Characterization
Product Development
Thin Films
Start Ups
Semiconductors
Microfabrication
Simulations
Design of Experiments
Afm
Materials Science
Photolithography
Physics
Sensors
Electronics
R&D
Manufacturing
Product Management
Entrepreneurship
Matlab
Patents
Metal Fabrication
Pecvd
Nanomaterials
Consumer Electronics
Mobile Devices
Engineering Management
Engineering
Venture Capital
Process Simulation
Scanning Electron Microscopy
Microfluidics
Silicon
Semiconductor Manufacturing
Industrial Design
Technology Marketing
Simulation
Technology Development
Finite Element Analysis
Microelectronics
Ansys
Intellectual Property
Process Development
Materials
Fabrication
Solidworks
Technology Transfer

Interests:

Rock Climbing
Brazilian Jiu Jitsu/Jeet Kune Do
Tennis

Languages:

English
Hindi
French

Name / Title

Company / Classification

Phones & Addresses

Shahyaan Desai
Owner, Principal

Nanofabrixa
Nonclassifiable Establishments

10 Cascadilla Hall, Ithaca, NY 14853

Us Patents

Fiber Based Mems
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US Patent:

7457021, Nov 25, 2008
Filed:

Jun 24, 2005
Appl. No.:

11/166363
Inventors:

Shahyaan Desai - East Moriches NY, US
Assignee:

Cornell Research Foundation, Inc. - Ithaca NY
International Classification:

G02B 26/08
US Classification:

359223, 385 16
Abstract:

MEMS can be fabricated from fibers without the use of a matrix material. Devices can be built where fibers are attached only at a substrate edge (e. g. cantilevers, bridges). Motions can be controlled by adjusting the linkage between multiple fibers with weak coupling (e. g. base, tip, in-between). Driving mechanisms include base-forcing (magnetics, piezo, electrostatics) or tip forcing (magnetics). Mirrors may be formed on free ends of cantilevers to form optical scanners.

Fiber Based Mems
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US Patent:

7616367, Nov 10, 2009
Filed:

Nov 25, 2008
Appl. No.:

12/323322
Inventors:

Shahyaan Desai - East Moriches NY, US
Assignee:

Cornell Research Foundation, Inc. - Ithaca NY
International Classification:

G02B 26/08
US Classification:

3592241
Abstract:

MEMS can be fabricated from fibers without the use of a matrix material. Devices can be built where fibers are attached only at a substrate edge (e. g. cantilevers, bridges). Motions can be controlled by adjusting the linkage between multiple fibers with weak coupling (e. g. base, tip, in-between). Driving mechanisms include base-forcing (magnetics, piezo, electrostatics) or tip forcing (magnetics). Mirrors may be formed on free ends of cantilevers to form optical scanners.

Fiber Based Mems
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US Patent:

7835055, Nov 16, 2010
Filed:

Nov 10, 2009
Appl. No.:

12/615625
Inventors:

Shahyaan Desai - Ithaca NY, US
Assignee:

Cornell Research Foundation, Inc. - Ithaca NY
International Classification:

G02B 26/08
US Classification:

3592241
Abstract:

MEMS can be fabricated from fibers without the use of a matrix material. Devices can be built where fibers are attached only at a substrate edge (e. g. cantilevers, bridges). Motions can be controlled by adjusting the linkage between multiple fibers with weak coupling (e. g. base, tip, in-between). Driving mechanisms include base-forcing (magnetics, piezo, electrostatics) or tip forcing (magnetics). Mirrors may be formed on free ends of cantilevers to form optical scanners.

Fibrous Micro-Composite Material
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US Patent:

8094351, Jan 10, 2012
Filed:

Oct 9, 2009
Appl. No.:

12/576402
Inventors:

Shahyaan Desai - Ithaca NY, US
Michael O. Thompson - Ithaca NY, US
S. Leigh Phoenix - Ithaca NY, US
Assignee:

Cornell Research Foundation, Inc. - Ithaca NY
International Classification:

G02B 26/08
US Classification:

3591981, 3591961, 3592241, 310300
Abstract:

Fibrous micro-composite materials are formed from micro fibers. The fibrous micro-composite materials are utilized as the basis for a new class of MEMS. In addition to simple fiber composites and microlaminates, fibrous hollow and/or solid braids, can be used in structures where motion and restoring forces result from deflections involving torsion, plate bending and tensioned string or membrane motion. In one embodiment, fibrous elements are formed using high strength, micron and smaller scale fibers, such as carbon/graphite fibers, carbon nanotubes, fibrous single or multi-ply graphene sheets, or other materials having similar structural configurations. Cantilever beams and torsional elements are formed from the micro-composite materials in some embodiments.

Micro Electro-Mechanical System (Mems) Based High Definition Micro-Projectors
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US Patent:

8416482, Apr 9, 2013
Filed:

Mar 16, 2009
Appl. No.:

12/933259
Inventors:

Shahyaan Desai - Ithaca NY, US
Assignee:

Mezmeriz, Inc. - Ithaca NY
International Classification:

G02B 26/08
US Classification:

3592131
Abstract:

In one aspect, a system for facilitating short depth projection is shown and described. In brief overview, the system comprises a MEMS scanner that produces a ray of light in communication with an illumination source. An oscillating micromirror receives the ray of light from the illumination source and reflects the ray to one or more points on a curved reflective surface. The micromirror comprises a silicon mirror reinforced by a high-stiffness material. The system further comprises a screen on which the curved reflective surface projects the ray of light received from the micromirror.

Coupled Mems Structure For Motion Amplification
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US Patent:

8633787, Jan 21, 2014
Filed:

Sep 21, 2007
Appl. No.:

12/442369
Inventors:

Shahyaan Desai - Ithaca NY, US
Anil N. Netravali - Ithaca NY, US
Michael O. Thompson - Ithaca NY, US
Assignee:

Cornell Research Foundation, Inc. - Ithaca NY
International Classification:

H03H 9/24
H03H 9/50
G01P 15/08
US Classification:

333186, 7350415, 333197, 310309
Abstract:

A microelectromechanical structure (MEMS) device includes a secondary MEMS element displaceably coupled to a substrate. A primary MEMS element is displaceably coupled to the secondary MEMS element and has a resonant frequency substantially equal to the secondary MEMS element and has a much larger displacement than the secondary MEMS element.

Fibrous Micro-Composite Material
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US Patent:

20040082247, Apr 29, 2004
Filed:

Mar 21, 2003
Appl. No.:

10/395008
Inventors:

Shahyaan Desai - Stony Brook NY, US
Michael Thompson - Ithaca NY, US
S. Phoenix - Ithaca NY, US
International Classification:

D04H005/00
US Classification:

442/340000
Abstract:

Fibrous micro-composite materials are formed from micro fibers. The fibrous micro-composite materials are utilized as the basis for a new class of MEMS. In addition to simple fiber composites and microlaminates, fibrous hollow and/or solid braids, can be used in structures where motion and restoring forces result from deflections involving torsion, plate bending and tensioned string or membrane motion. In one embodiment, fibrous elements are formed using high strength, micron and smaller scale fibers, such as carbon/graphite fibers, carbon nanotubes, fibrous single or multi-ply graphene sheets, or other materials having similar structural configurations. Cantilever beams and torsional elements are formed from the micro-composite materials in some embodiments.

Fibrous Micro-Composite Material
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US Patent:

20060268384, Nov 30, 2006
Filed:

Aug 7, 2006
Appl. No.:

11/500011
Inventors:

Shahyaan Desai - Stony Brook NY, US
Michael Thompson - Ithaca NY, US
S. Phoenix - Ithaca NY, US
International Classification:

G02B 26/08
US Classification:

359224000
Abstract:

Fibrous micro-composite materials are formed from micro fibers. The fibrous micro-composite materials are utilized as the basis for a new class of MEMS. In addition to simple fiber composites and microlaminates, fibrous hollow and/or solid braids, can be used in structures where motion and restoring forces result from deflections involving torsion, plate bending and tensioned string or membrane motion. In one embodiment, fibrous elements are formed using high strength, micron and smaller scale fibers, such as carbon/graphite fibers, carbon nanotubes, fibrous single or multi-ply graphene sheets, or other materials having similar structural configurations. Cantilever beams and torsional elements are formed from the micro-composite materials in some embodiments.

Shahyaan K Desai

Shahyaan Desai Phones & Addresses

Work

Education

Skills

Languages

Interests

Industries

Resumes

Chief Technology Officer At Mezmeriz

Us Patents

Fiber Based Mems

Fiber Based Mems

Fiber Based Mems

Fibrous Micro-Composite Material

Micro Electro-Mechanical System (Mems) Based High Definition Micro-Projectors

Coupled Mems Structure For Motion Amplification

Fibrous Micro-Composite Material

Fibrous Micro-Composite Material