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Paul T Nahass Deceased70 Tillotson Rd, Needham, MA 02494

Paul Nahass Phones & Addresses

70 Tillotson Rd, Needham Heights, MA 02494   

70 Tillotson Rd #2, Needham Heights, MA 02494   

Needham, MA   

Westborough, MA   

Lynchburg, VA   

Work

Company: Flexlite corporation - Cambridge, MA 2013 Position: Founder, chief product officer

Education

School / High School: Massachusetts Institute of Technology- Cambridge, MA 1990 Specialities: CS in Ceramics

Mentions for Paul T Nahass

Paul Nahass resumes & CV records

Resumes

Paul Nahass Photo 10

Paul Nahass - Cambridge, MA

Work:
FlexLite Corporation - Cambridge, MA 2013 to 2014
Founder, Chief Product Officer
Aspen Aerogels, Inc - Northborough, MA 2008 to 2013
Director, Technology Commercialization
Technology Commercialization 2006 to 2008
Director
Foster-Miller, Inc., aka QinetiQ North America - Waltham, MA 2003 to 2005
Sr. Mgr. Business Development
Director R&D 2000 to 2003 Associate Director, R&D 1997 to 2000 Albany International Corporation - Mansfield, MA 1995 to 1997
Assistant Director, R&D
Manager, Polymer Applications 1992 to 1994 Hyperion Catalysis International - Cambridge, MA 1990 to 1992
Sr. Applications Engineer
Education:
Massachusetts Institute of Technology - Cambridge, MA 1990
CS in Ceramics
Rensselaer Polytechnic Institute, Lally Management School - Troy, NY 1984
Chemical Engineering Practice

Publications & IP owners

Us Patents

Graphite Fibril Material

US Patent:
2002006, Jun 6, 2002
Filed:
Aug 29, 1996
Appl. No.:
08/612914
Inventors:
HIROHARU IKEDA - TOKYO, JP
PAUL R. NAHASS - CAMBRIDGE MA, US
ROBERT HAUSSLEIN - LEXINGTON MA, US
International Classification:
D01F009/12
C01B031/04
US Classification:
423/447200, 423/448000, 423/447300
Abstract:
A graphite fibril material comprised primarily of an aggregate of an average particle diameter of 0.1 to 100 m in which fibrils are intertwinned, the fibrils being graphite fibrils of a fiber diameter of 0.0035 to 0.075 m and spacing of the carbon hexagonal net plane as determined by the X-ray diffraction method of 3.36 to 3.53 angstroms. It is of high crystallinity and purity and is of superior conductivity, chemical stability, solvent absorption capacity and reinforcing capacity.

Graphite Fibril Material

US Patent:
2004012, Jul 1, 2004
Filed:
Jun 20, 2003
Appl. No.:
10/601033
Inventors:
Hiroharu Ikeda - Tokyo, JP
Paul Nahass - Cambridge MA, US
Robert Hausslein - Lexington MA, US
Assignee:
Hyperion Catalysis International, Inc.
International Classification:
C01B031/04
US Classification:
423/448000
Abstract:
A graphite fibril material comprised primarily of an aggregate of an average particle diameter of 0.1 to 100 m in which-fibrils are intertwined, the fibrils being graphite fibrils of a fiber diameter of 0.0035 to 0.075 m and spacing of the carbon hexagonal net plane as determined by the X-ray diffraction method of 3.36 to 3.53 angstroms. It is of high crystallinity and purity and is of superior conductivity, chemical stability, solvent absorption capacity and reinforcing capacity.

Graphite Fibril Material

US Patent:
2007000, Jan 4, 2007
Filed:
Aug 31, 2006
Appl. No.:
11/515264
Inventors:
Hiroharu Ikeda - Tokyo, JP
Paul Nahass - Cambridge MA, US
Robert Hausslein - Lexington MA, US
Assignee:
Hyperion Catalysis International, Inc. - Cambridge MA
International Classification:
C01B 31/04
US Classification:
423448000
Abstract:
A graphite fibril material comprised primarily of an aggregate of an average particle diameter of 0.1 to 100 μm in which-fibrils are intertwined, the fibrils being graphite fibrils of a fiber diameter of 0.0035 to 0.075 μm and spacing of the carbon hexagonal net plane as determined by the X-ray diffraction method of 3.36 to 3.53 angstroms. It is of high crystallinity and purity and is of superior conductivity, chemical stability, solvent absorption capacity and reinforcing capacity.

Physiological Status Monitoring System

US Patent:
2007029, Dec 27, 2007
Filed:
May 29, 2007
Appl. No.:
11/807449
Inventors:
Brian Farrell - Quincy MA, US
Richard Streeter - Winchester MA, US
Jeremy Bowman - Arlington MA, US
David McDonald - Medway MA, US
Paul Nahass - Cambridge MA, US
International Classification:
A61B 5/00
US Classification:
600301000
Abstract:
A physiological status monitoring system includes a shirt and a stretchable circumferential band attached to the shirt. The stretchable band includes a respiration detector subsystem and signal transmission conductors. One or more sensors on the band are electrically connected to a signal transmission conductor. At least one sensor has an exposed electrode inside the shirt. The system includes a cover over the band and/or the one or more sensors. A connection subsystem on the band is electrically connected to the respiration detector subsystem and the signal transmission conductors and includes signal traces therefrom to a first connector accessible from outside the shirt. An electronics module is releasably attached to the shirt and includes a second connector which mates with the first connector. The electronics module includes a processing system and a transmitter. The remote display unit includes a receiver, a display, and a processing system.

Electronic Device Manufacture Using Low-K Dielectric Materials

US Patent:
2012018, Jul 26, 2012
Filed:
Jan 25, 2012
Appl. No.:
13/358462
Inventors:
Nicholas A Zafiropoulos - Newton MA, US
Paul Nahass - Cambridge MA, US
Roxana Trifu - Worcester MA, US
Redouane Begag - Hudson MA, US
Wendell E Rhine - Belmont MA, US
Wenting Dong - Marlborough MA, US
Shannon White - Hudson MA, US
George L Gould - Mendon MA, US
Alaric Naiman - Lincoln MA, US
Roger Sinta - Woburn MA, US
Assignee:
Aspen Aerogels, Inc. - Northborough MA
International Classification:
B05D 5/00
C23C 16/44
B05D 3/06
B05D 3/10
US Classification:
427535, 427340, 4272481, 427554, 427256
Abstract:
Materials and methods for manufacturing electronic devices and semiconductor components using low dielectric materials comprising polyimide based aerogels are described. Additional methods for manipulating the properties of the dielectric materials and affecting the overall dielectric property of the system are also provided.

High Strength Conductive Polymers

US Patent:
5591382, Jan 7, 1997
Filed:
Mar 31, 1993
Appl. No.:
8/040895
Inventors:
Paul R. Nahass - Cambridge MA
Stephen O. Friend - Boxford MA
Robert W. Hausslein - Lexington MA
Assignee:
Hyperion Catalysis International Inc. - Cambridge MA
International Classification:
H01B 120
H01B 124
US Classification:
252511
Abstract:
A polymeric composition having improved toughness and conductivity comprising carbon fibrils, at least a portion of which are in the form of aggregates, wherein, as measured on an area basis, substantially all of the aggregates are less than about 35. mu. m in diameter. A polymeric composition having improved toughness and conductivity is prepared by combining carbon fibrils, at least a portion of which are in the form of aggregates, with a polymeric material, mixing the combination to distribute the fibrils in the polymeric material and applying shear to the combination to break down the aggregates until substantially all of the aggregates are less than about 35. mu. m in diameter.

High Strength Conductive Polymers Containing Carbon Fibrils

US Patent:
5643502, Jul 1, 1997
Filed:
Mar 30, 1994
Appl. No.:
8/220276
Inventors:
Paul R. Nahass - Cambridge MA
Stephen O. Friend - Boxford MA
Robert W. Hausslein - Lexington MA
Assignee:
Hyperion Catalysis International - Lexington MA
International Classification:
H01B 124
US Classification:
252511
Abstract:
A polymeric composition having improved toughness and conductivity comprising carbon fibrils, at least a portion of which are in the form of aggregates, wherein, as measured on an area basis, substantially all of the aggregates are less than about 35. mu. m in diameter. A polymeric composition having improved toughness and conductivity is prepared by combining carbon fibrils, at least a portion of which are in the form of aggregates, with a polymeric material, mixing the combination to distribute the fibrils in the polymeric material and applying shear to the combination to break down the aggregates until substantially all of the aggregates are less than about 35. mu. m in diameter.

High Strength Conductive Polymers

US Patent:
5651922, Jul 29, 1997
Filed:
Jun 7, 1995
Appl. No.:
8/478823
Inventors:
Paul R. Nahass - Cambridge MA
Stephen O. Friend - Boxford MA
Robert W. Hausslein - Lexington MA
Assignee:
Hyperion Catalysis International - Lexington MA
International Classification:
H01B 100
H01B 124
US Classification:
252511
Abstract:
A polymeric composition having improved toughness and conductivity comprising carbon fibrils, at least a portion of which are in the form of aggregates, wherein, as measured on an area basis, substantially all of the aggregates are less than about 35. mu. m in diameter. A polymeric composition having improved toughness and conductivity is prepared by combining carbon fibrils, at least a portion of which are in the form of aggregates, with a polymeric material, mixing the combination to distribute the fibrils in the polymeric material and applying shear to the combination to break down the aggregates until substantially all of the aggregates are less than about 35. mu. m in diameter.

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