Amsen Technologies LLC

1684 S. Research Loop Suite 518
Tucson, AZ 85710
6 Employees

SBIR Award Summary

Total Number of Awards 25
Total Value of Awards $4.99MM
First Award Date 01/01/99
Most Recent Award Date 03/11/16

Key Personnel

Last Name Name Awards Contact
Hu Dr. Hongxing Hu 15 Message
Aruchamy Dr. Ayyasamy Aruchamy 14 Message
Aruchamy Ayyasamy Aruchamy 1
Xu Chuanjing Xu 2 Message

25 Awards Won

Phase 1 SBIR

Agency: Department of Energy
Topic: 12c
Budget: 03/11/16 - 11/21/16

Fuel cells for transportation applications are required to operate in a wide temperature range from –20°C to 120°C. Low-cost proton exchange membranes with capabilities in a range of temperature and humidity conditions are urgently needed to meet the DOE fuel cell targets for transportation applications. This Small Business Innovation Research P...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: H10.01
Budget: 06/17/15 - 12/17/15

This SBIR project aims to develop a helium recovery system based on high-performance proton exchange membranes (PEM). The PEM will be fabricated based on Amsen's existing technology. Membrane electrode assemblies (MEA) will be fabricated using the high-performance PEM. The processing and interfacial microstructure of the MEA will be optimized...

Phase 1 SBIR

Agency: Department of Energy
Topic: 13A-2014
Budget: 01/01/14 - 12/31/14

Improvements in performance of the components are needed for polymer electrolyte membrane (PEM) electrolyzers, which is one of the key technologies for DOEs hydrogen production plan. In particular, high- performance ion-exchange membranes are needed that can withstand significantly higher mechanical loads due to high-pressure operation, while ha...

Phase 1 SBIR

Agency: Army
Topic: A11-065
Budget: 06/20/11 - 12/19/11

This Small Business Innovation Research Phase I project aims to develop a lithium ion battery separator with high temperature stability by modification on the surface of the microporous PP separator via a unique chemistry. The feasibility of the proposed approach is founded on Amsen¡¯s existing capabilities as well as findings of preliminary ex...

Phase 2 SBIR

Agency: Department of Energy
Topic: 20 A-2011
Budget: 01/01/11 - 12/31/11

The ion exchange membrane is the key component in redox flow batteries (RFBs) as it critically determines the RFB performance and its economic viability. The membrane should possess the following properties to ensure high energy efficiency and long cycle life of RFBs: high proton conductivity, low permeability of active redox species, and high c...

Phase 1 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD10-EP6
Budget: 12/20/10 - 06/20/11

This Small Business Innovation Research Phase I project aims to develop high performance anion exchange membranes for alkaline and low-temperature fuel cell applications based on a unique polymer-polymer hybrid scheme. The hybrid of these two polymers is intended to take advantage of combined merits of the constituent polymers and overcome the ...

Phase 1 SBIR

Agency: Department of Energy
Topic: 20 A-2010
Budget: 01/01/10 - 12/31/10

The ion exchange membrane is the key component in redox flow batteries (RFBs) as it critically determines the RFB performance and its economic viability. The membrane should possess the following properties to ensure high energy efficiency and long cycle life of RFBs: high proton conductivity, low permeability of active redox species, and high ...

Phase 1 SBIR

Agency: National Science Foundation
Topic: CT2-2010
Budget: 01/01/10 - 12/31/10

This Small Business Innovation Research Phase I project aims to develop an inorganic-reinforced proton exchange membranes for application in vanadium redox flow batteries (RFBs). New proton exchange membranes with reduced vanadium permeability as well as enhanced stability and durability are needed for cost-effective operation of RFBs. The com...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: 09-1
Budget: 01/01/09 - 12/31/09

This SBIR project aims to develop a lightweight, highly thermally and electrically conductive heat pipe plate for passive removal of the heat from the individual fuel cells or electrolysis cells within a cell stack. The desired heat pipe plate will be fabricated from a novel composite based on carbon nanotubes. Carbon nanotubes are possibly th...

Phase 2 SBIR

Agency: Army
Topic: A04-050
Budget: 05/05/06 - 05/05/08

This program aims to develop a novel composite PEM for multifunctional power generating structures. The innovation in the present effort is to take advantage of our capability and make use of the superior mechanical properties of the nanomaterial-based reinforcements including large aspect ratios, high tensile strength, and low density, which m...

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