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Enhanced Carbon Nanotube Ultracapacitors

Award Information
Agency: National Aeronautics and Space Administration
Branch: N/A
Contract: NNX10RA89P
Agency Tracking Number: 090109
Amount: $99,988.00
Phase: Phase I
Program: STTR
Solicitation Topic Code: T6.01
Solicitation Number: N/A
Solicitation Year: 2009
Award Year: 2010
Award Start Date (Proposal Award Date): 2010-01-29
Award End Date (Contract End Date): 2011-01-28
Small Business Information
555 Sparkman Drive, Suite 214
Huntsville, AL 35816-3440
United States
DUNS: 826034550
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 Scott von Laven
 Principal Investigator
 (256) 319-0858
Business Contact
 Gary Grant
Title: Corporate Treasurer
Phone: (256) 319-0858
Research Institution
 Vanderbilt University, Division of Sponsored Research
 Not Available
Station B #357749, 2301 Vanderbilt Place
Nashville, TN 37235
United States

 (615) 322-2631
 Domestic Nonprofit Research Organization

The proposed innovation utilizes carbon nanotubes (CNTs) coated with pseudo-capacitive MnO2 material as nano-composite electrode and ionic electrolyte for the construction of ultracapacitors. This novel approach of using nano-structured CNTs architectures provides high surface area of attachment of MnO2 nano-particles to maximize the charge efficiency and power capacity and to reduce series resistance. Preliminary results at Vanderbilt University using this CNTs/ MnO2 nano-composite as electrode of an ultracapacitor has demonstrated enhanced capacitor behavior of >400X over pristine CNTs as electrode.

During Phase I, we will demonstrate in the laboratory that the proposed novel concept is feasible and measure the power and energy generation capacity, efficiency, and charging/discharging cycle durability. The key factor to successful exploitation of the CNT/ MnO2 nano-structured composite for ultracapacitor applications is closely related to further understanding and control of the physics, materials, and micro-fabrication technology. The proposed Phase I work provides a systematic, logical, and coherent investigation of the material issue, device fabrication, characterization, simulation, evaluation, and optimization to meet high power requirements.

* Information listed above is at the time of submission. *

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