Chemat Technology, Inc.

9036 Winnetka Avenue
Northridge, CA 91324
http://www.chemat.com
30 Employees

SBIR Award Summary

Total Number of Awards 78
Total Value of Awards $16.4MM
First Award Date 12/02/92
Most Recent Award Date 09/30/13

78 Awards Won

Phase 2 SBIR

Agency: Air Force
Topic: AF121-069
Budget: 09/30/13 - 12/30/15

ABSTRACT: The goal of this technology development is to design, develop and test Li-ion battery cells with long cyclic life composing an advanced cathode. There are number of candidate cathode and anode materials are considered promising candidates for lithium ion battery due to their large capacity and relatively good rate capability, low se...

Phase 2 STTR

Institution: The Aerospace Corporation

Agency: Air Force
Topic: AF10-BT11
Budget: 11/01/12 - 10/03/14

ABSTRACT: The emerging technology of protean glass/ceramic materials, where RF and DC electrical properties can be imbued in the material volume by laser excitation and subsequent material transformation processes has great potential especially for the military applications. In this Phase I research, Chemat has successfully prepared a protean g...

Phase 1 SBIR

Agency: Air Force
Topic: AF121-069
Budget: 08/06/12 - 05/06/13

ABSTRACT: The goal of this technology development is to design, develop and test Li-ion battery cells with long cyclic life composing an advanced cathode. There are number of candidate cathode and anode materials are considered promising candidates for lithium ion battery due to their large capacity and relatively good rate capability, low se...

Phase 1 SBIR

Agency: Department of Health & Human Services
Topic: PA-09-113
Budget: 09/01/11 - 02/29/12

DESCRIPTION (provided by applicant): Today Rx-manufacturing in the ophthalmic industry is a complex process with many production steps, substantial batch processing and a lot of manual handling especially in the coating steps. With digital surfacing technology, designers are able to translate intricate design concepts (personalized and advanced ...

Phase 1 STTR

Institution: Aerospace Corporation

Agency: Air Force
Topic: AF10-BT11
Budget: 08/15/11 - 08/14/12

ABSTRACT: Photosensitive protean materials form essentially a new class of materials which are manufactured in one state but its select material properties can be physically and locally altered through patterning and lithography. In this proposed research, we will demonstrate the feasibility of creation of conductive copper lines imbued in the g...

Phase 1 STTR

Institution: University of Texas at Austin

Agency: Navy
Topic: N11A-T035
Budget: 06/27/11 - 04/27/12

EM Railgun project in Navy demands safe, high energy and long cycle life Li-ion batteries. In this Phase I research, we will demonstrate the feasibility of Li2MSiO4 cathode materials for this application. Special thin coatings will be self-assembled on the nanosize particles to significantly improve the performance to achieve high capacity (> 20...

Phase 2 STTR

Institution: University of Dayton

Agency: Army
Topic: A09A-T011
Budget: 03/10/11 - 03/09/12

Interest in lithium metal-air batteries has been growing in recent years, along with the demand for lighter power sources for devices ranging from plug-in hybrid vehicles to laptops. In lithium-ion batteries, the electrodes are made of materials such as graphite, while in a lithium-metal battery, the anode is made up entirely of lithium metal, a...

Phase 1 SBIR

Agency: Air Force
Topic: AF093-065
Budget: 03/23/10 - 03/23/11

The goal of this technology development is to design, develop and test an advanced cathode for Li-ion battery cells with long cyclic life. LMO2 type of cathode materials are considered promising candidates for lithium ion battery due to their large theoretical capacity and relatively good rate capability, low self-discharge and relatively good...

Phase 1 SBIR

Agency: Department of Energy
Topic: 08 B-2010
Budget: 01/01/10 - 12/31/10

The need for large-scale Li-ion batteries in HEV and PHEV drives continuous R&D. In this research, we will develop novel high capacity cathode materials for Li-ion batteries to achieve high power and high energy densities, due to rigorous weight and volume constraints of HEV and PHEV. The new cathode materials will be based on the multi-electr...

Phase 2 SBIR

Agency: National Science Foundation
Topic: J9-2010
Budget: 01/01/10 - 12/31/10

This Small Business Innovation Research (SBIR) Phase II project aims to develop high dielectric constant (high-K) thick film for high-frequency ultrasonic transducer. Thick piezoelectric film technology is very attractive for the fabrication of thin piezoelectric element in high-frequency ultrasonic medical imaging applications. However, it is...

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