Microenergy Technologies, Inc.

2007 E. Fourth Plain Blvd.
Vancouver, WA 98661
http://www.microet.com
12 Employees

SBIR Award Summary

Total Number of Awards 14
Total Value of Awards $3.84MM
First Award Date 04/22/02
Most Recent Award Date 12/10/04

Key Personnel

Last Name Name Awards Contact
Birmingham Mr. Joseph Birmingham 11 Message
Shekarriz Dr. Reza Shekarriz 4 Message
Faulkner Mr. Dan Faulkner 1 Message

14 Awards Won

Phase 1 SBIR

Agency: Army
Topic: A04-147
Budget: 12/10/04 - 06/09/05

MicroET in conjunction with NanoScale Materials proposes to develop a universal approach to filtering particulate hazards for building applications. MicroET proposes to extract biological and submicron-chemical materials from air to capture, kill, and identify the presence of pathogens and toxic particle hazards. We propose to accomplish this f...

Phase 2 SBIR

Agency: Navy
Topic: N02-207/1
Budget: 08/11/04 - 08/11/06

During Phase I of this project MicroEnergy Technologies demonstrated a prototype universal chemical, biological and radiological sensor. Defense against Weapons of Mass Destruction (WMD) has become increasingly critical national security need. Current technologies are generally targeted for single type of threat. In addition, the biological sens...

Phase 2 SBIR

Agency: Chemical and Biological Defense Program
Topic: N02-118
Budget: 08/09/04 - 08/09/06

MicroEnergy Technologies (MicroET) in conjunction with ChemImage Inc. (Pittsburg, PA) has a goal to develop an efficient pathogen collector and detector that can be deployed as a point detector with few false alarms. During Phase I we developed a prototy

Phase 1 SBIR

Agency: Chemical and Biological Defense Program
Topic: CBD04-303
Budget: 06/30/04 - 12/30/04

MicroEnergy Technologies, Inc. (MicroET) in conjunction with Honeywell (formerly Allied-Signal) proposes to develop a unique and revolutionary filter approach for actively removing hazardous (small particle) mists and toxic chemicals such as nerve agents from air. MicroET has significant experience in the development of microstructures for filt...

Phase 2 SBIR

Agency: Navy
Topic: N02-138
Budget: 05/24/04 - 05/24/06

MicroEnergy Technologies in conjunction with vdW Design (at the University of Wisconsin-Madison) has demonstrated feasibility of development of a unique non-intrusive chemical and biological agent detection system during Phase I. The need for CBR threat detection has become increasingly critical to national and international security. Current ...

Phase 2 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD02-EP04
Budget: 05/04/04 - 05/04/06

MicroEnergy Technologies is developing an autonomous cooling module, capable of removing waste heat fluxes of up to 1000 W/cm^2 from electronics and other devices. The cooling module will utilize an extremely efficient microchannel heatsink geometry and two-phase (boiling) flow to maximize heat transfer rates. The heat transfer will be further...

Phase 2 STTR

Institution: Old Dominion University

Agency: Air Force
Topic: AF02T013
Budget: 09/20/03 - 09/20/05

Based on several experimental results during Phase I, MicroEnergy Technologies has analyzed and sequenced the protein that initially leaves Bacillus bacteria that reveals deactivation of spores. We are proposing a unique plasma mechanism: (1) spore membranes are ruptured as seen in SEM micrographs of plasma treated biomaterials, (2) uniform...

Phase 1 SBIR

Agency: Navy
Topic: N02-207/1
Budget: 04/08/03 - 10/08/03

The objective of this proposal is to evaluate the efficacy of the novel combination of microstructured aerosol and gas collector and terahertz (THz) spectroscopy techniques to non-invasively collect and detect hazardous chemical vapors, biological pathogens and toxins, and nuclear materials of interest. MicroEnergy Technologies and the Univers...

Phase 1 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD02-EP04
Budget: 03/18/03 - 09/18/03

MicroEnergy Technologies, Inc. (MicroET) and the University of Washington propose to demonstrate the feasibility and the major advantages of a unique high heat flux cooling module which combines innovations in heat rejection with innovative rosette pump design to achieve heat rejection rates in excess of 1000 W/cm2 from the surface of a substrat...

Phase 1 SBIR

Agency: Navy
Topic: N02-138
Budget: 12/20/02 - 06/19/03

The objective of this proposal is to evaluate the efficacy of the novel combination of microstructured aerosol and gas collector and terahertz (THz) spectroscopy techniques to non-invasively collect and detect hazardous chemical vapors, biological pathogens and toxins, and nuclear materials of interest. MicroEnergy Technologies, Inc. in cooper...

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