| Name | Awards | Latest |
|---|---|---|
|
Millennia Ceramics, Inc.
Bay Village, OH |
1 | 09/19/00 |
|
Infoscitex Corp.
Waltham, MA |
1 | 08/15/05 |
|
Scattering Solutions
Irvine, CA |
1 | 01/01/08 |
|
Cam-lem, Inc.
Cleveland, OH |
3 | 08/16/96 |
|
NZ Applied Technologies Corp.
Woburn, MA |
1 | 08/01/98 |
|
NEI Corp.
Piscataway, NJ |
1 | 08/23/06 |
|
Sierra Lobo, Inc.
Fremont, OH |
2 | 06/01/02 |
|
Mathematical Systems & Solutions, Inc.
Pasadena, CA |
3 | 12/01/11 |
|
Innosense LLC
Torrance, CA |
1 | 01/01/08 |
|
Stress Photonics, Inc.
Madison, WI |
1 | 01/01/03 |
|
Flight Landata, Inc.
North Andover, MA |
1 | 01/01/05 |
|
Genetic Assemblies, Inc.
Madison, WI |
1 | 01/01/03 |
|
Sensor Development Corporation
Rocky River, OH |
2 | 01/01/01 |
|
PolymerPlus LLC
Valley View, OH |
2 | 09/15/15 |
|
Biodetection Instruments, LLC
Fayetteville, AR |
1 | 07/31/08 |
|
North Coast Crystals, Inc.
Cleveland, OH |
1 | 08/25/97 |
|
Giner, Inc.
Newton, MA |
3 | 06/29/09 |
|
Utility Development Corp.
Livingston, NJ |
2 | 07/10/02 |
|
Faraday Technology, Inc.
Englewood, OH |
3 | 01/01/13 |
|
Physical Sciences, Inc.
ANDOVER, MA |
1 | 06/08/07 |
|
Makel Engineering, Inc.
Chico, CA |
2 | 01/01/00 |
|
Black Forest Engineering, LLC
Colorado Springs, CO |
2 | 11/09/11 |
|
Powdermet, Inc.
Euclid, OH |
1 | 08/01/06 |
|
Solid State Scientific Corp.
Hollis, NH |
1 | 09/23/96 |
|
Lynntech, Inc.
COLLEGE STATION, TX |
1 | 07/21/06 |
|
Seacoast Science, Inc.
CARLSBAD, CA |
1 | 06/10/16 |
|
Luna Innovations, Inc.
Roanoke, VA |
1 | 04/27/10 |
|
MRL Materials Resources LLC
Dayton, OH |
1 | 06/16/16 |
| Name | Contacts | Awards |
|---|---|---|
|
Rigoberto Advincula
|
1 | |
|
Dr. John Lewandowski
|
1 | |
|
Ravi Ayar
|
1 | |
|
Charlotte Horton
|
2 | |
|
Robin W. Trail
|
2 | |
|
Dr. A. Sayir
|
1 | |
|
Derek Humphrey
|
12 | |
|
Dr. Eric M. Cottington
|
3 | |
|
Daniel A. Scherson
|
1 | |
|
Mark R. De Guire
|
1 | |
|
Cynthia Case
|
1 | |
|
Carol Schwendeman
|
4 | |
|
C. C. Liu
|
1 | |
|
J. Adin Mann Jr.
|
1 |
Phase 1 STTR
Firm: MRL Materials Resources LLC
Institution: Case Western Reserve University
During AM of metallic alloys, a material exhibits several complex physical phenomena that impact the spatial distribution of heterogeneous material properties within a built component. Subsequent post-processing alters the already heterogeneous location-specific material properties. This project is to develop a novel methodology for linking the ...
Phase 1 STTR
Firm: Seacoast Science, Inc.
Institution: Case Western Reserve University
To provide additional telemetry and data for long-term mission, the composition of internal atmosphere of spacesuits must be determined. Specifically, the unambiguous detection and quantification of carbon dioxide is crucial for mission completion. Detection of other gasses (ammonia, oxygen) is also necessary for a complete sensor suite. Sea...
Phase 2 STTR
Firm: PolymerPlus LLC
Institution: Case Western Reserve University
The broader impact/commercial potential of this Small Business Technology Transfer Phase II project is to demonstrate a low cost, environmentally friendly co-extrusion fabrication method for producing high surface area micro- and nanofiber based nonwoven fuel filter sheets. The micro-/nanofiber nonwoven structures are fabricated from two differe...
Phase 1 STTR
Firm: PolymerPlus LLC
Institution: Case Western Reserve University
This Small Business Innovation Research (SBIR) Phase I project is geared toward the production of previously unprocessible polymer composite fiber materials aimed at improving performance in membrane and fuel filtering applications through environmentally friendly melt coextrusion processing of polymer fibers. This melt process strategy offers a...
Phase 2 STTR
Firm: Faraday Technology, Inc.
Institution: Case Western Reserve University
Redox flow batteries are a promising technology for electrical energy storage for renewable energy sources; however traditional redox flow batteries are limited in their use due to non-uniform pressure drops and mass transfer limitations, as well as high manufacturing costs related to the felt material costs for the electrode and component align...
Phase 1 STTR
Firm: Faraday Technology, Inc.
Institution: Case Western Reserve University
Redox flow batteries are a promising technology for electrical energy storage for renewable energy sources; however traditional redox flow batteries are limited in their use due to non-uniform pressure drops and mass transfer limitations, as well as high manufacturing costs related to the felt material costs for the electrode and component align...
Phase 2 STTR
Firm: Mathematical Systems & Solutions, Inc.
Institution: Case Western Reserve University
ABSTRACT: This effort focuses on development of efficient algorithms for the simulation of propagation and scattering of electromagnetic fields within and around structures that (i) Consist of complex combinations of penetrable materials as well as perfect and imperfect conductors}, and, (ii) Possess complex geometrical characteristics, includ...
Phase 2 STTR
Firm: Black Forest Engineering, LLC
Institution: Case Western Reserve University
Thermopile infrared linear arrays manufactured using CMOS integrated circuit processes and micro-machining will provide high performance sensing with low manufacturing cost. Black Forest Engineering (BFE) teamed with Case Western Reserve University will d
Phase 1 STTR
Firm: Black Forest Engineering, LLC
Institution: Case Western Reserve University
Thermopile arrays manufactured using integrated process compatible materials and micro-machining will provide high performance with low manufacturing cost. Black Forest Engineering (BFE) teamed with Case Western Reserve University will design thermopiles using silicon based semiconductors and compare performance. Low cost thermopiles, different...
Phase 1 STTR
Firm: Mathematical Systems & Solutions, Inc.
Institution: Case Western Reserve University
The present text proposes development of efficient, accurate and rapidly-convergent algorithms for the simulation of propagation and scattering of electromagnetic fields within and around structures that (i) Consist of complex combinations of penetrable materials as well as perfect and imperfect conductors, and, (ii) Possess complex geometrical...
