| Name | Awards | Latest |
|---|---|---|
|
Institute for Physics & Technology, Inc.
Moscow, ID |
1 | 01/01/00 |
|
Fluorochem, Inc.
Azusa, CA |
2 | 09/16/10 |
|
Manning Applied Technology
Troy, ID |
2 | 09/30/04 |
|
ICs
McCall, ID |
2 | 01/01/10 |
|
Physical Sciences, Inc.
ANDOVER, MA |
1 | 09/22/05 |
|
NALAS Engineering Services Inc.
Centerbrook, CT |
1 | 07/11/16 |
|
TDA Research, Inc.
Wheat Ridge, CO |
1 | 07/11/16 |
|
CFD Research Corp.
Huntsville, AL |
3 | 03/10/14 |
| Name | Contacts | Awards |
|---|---|---|
|
Deborah Shaver
|
1 | |
|
Poly Knutson
|
0 | |
|
Dr. Laura Hubbard
|
2 | |
|
Dr. Jean'ne M. Shreeve
|
2 | |
|
Ms. Polly Knutson
|
3 | |
|
Ms. Knutson Polly
|
1 | |
|
Ms. Polly Knuraon
|
1 |
Phase 1 STTR
Firm: NALAS Engineering Services Inc.
Institution: University of Idaho
Current state of the art oxidizers have been in service for decades, leaving the performance of our munitions and propulsion systems unchanged while our tactical objectives have increased in their requirements. Keeping with ongoing changes in the worlds military, maintaining a tactical advantage while meeting or exceeding mission capability requ...
Phase 1 STTR
Firm: TDA Research, Inc.
Institution: University of Idaho
The Navy seeks new energetic and oxidizing ingredients for use in propellant and explosive formulations of modern weapons systems. With recent developments in the design and synthesis of new energetic molecules, we have the opportunity to take the steps needed before these materials can successfully transition to use in next generation propulsio...
Phase 2 STTR
Firm: CFD Research Corp.
Institution: University of Idaho
Development of next generation energetic materials has been slow primarily due to a lack of fundamental understanding of the physics and chemistry of these materials. The strategy for development historically has been a trial-and-error experimental approach which possesses considerable risk of failure. With the advent of high speed computers and...
Phase 1 STTR
Firm: CFD Research Corp.
Institution: University of Idaho
Development of next generation energetic materials has been slow primarily due to a lack of fundamental understanding of the physics and chemistry of these materials. The strategy for development historically has been a trial-and-error experimental approach which possesses considerable risk of failure. With the advent of high speed computers and...
Phase 2 STTR
Firm: Fluorochem, Inc.
Institution: University of Idaho
The objective of this program is to design advanced energetic oxidizers superior to ammonium perchlorate (AP), develop methods for their preparation, and characterize the products. The overall goal of the Phase II program with options is to make the technology ready for commercialization
Phase 2 STTR
Firm: ICs
Institution: University of Idaho
Abstract
Phase 1 STTR
Firm: Fluorochem, Inc.
Institution: University of Idaho
The objective of this program is to design advanced energetic oxidizers superior to ammonium perchlorate (AP), develop methods for their preparation, and characterize the products.
Phase 1 STTR
Firm: CFD Research Corp.
Institution: University of Idaho
In this STTR program, CFDRC, in collaboration with the University of Idaho, proposes to develop some novel high-performance polynitrogen energetic materials for propellant applications. The proposed materials contain amine substituted tetrazole-based heterocyclic cations. In order to enhance the energy content and stability further, they are co...
Phase 1 STTR
Firm: ICs
Institution: University of Idaho
The proposed work seeks to drastically increase the capability of the lossless data compression technology embedded in the currently used flight part known as USES (Universal Source Encoder for Space). USES met the CCSDS 121-0-B 1 recommendation. New advances to the lossless data compression electronic technology which advances the current fli...
Phase 1 STTR
Firm: Physical Sciences, Inc.
Institution: University of Idaho
Physical Sciences Inc. (PSI) and the University of Idaho Chemistry Department (U. Id.) propose to synthesize and characterize new solid propellant ingredients. The materials will contain very high nitrogen content within the chemical structure, thereby ensuring a large energy release. Energy densities from these ionic salt propellant ingredients...
