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Nanostructured Fiber Optic Cantilever Arrays and Hybrid MEMS Sensors for Chemical and Biological Detection

Award Information
Agency: National Aeronautics and Space Administration
Branch: N/A
Contract: NNM06AA07C
Agency Tracking Number: 041307
Amount: $50,000.00
Phase: Phase II
Program: SBIR
Solicitation Topic Code: B4.01
Solicitation Number: N/A
Timeline
Solicitation Year: 2004
Award Year: 2006
Award Start Date (Proposal Award Date): 2005-12-02
Award End Date (Contract End Date): 2007-11-30
Small Business Information
2851 Commerce Street
Blacksburg, VA 24060-6657
United States
DUNS: 627132913
HUBZone Owned: Yes
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 Matthew Hull
 Principal Investigator
 (540) 552-5128
 submissions@lunainnovations.com
Business Contact
 Angela Keen
Title: Sr. Contracts Administrator
Phone: (540) 552-5128
Email: submissions@lunainnovations.com
Research Institution
N/A
Abstract

Advancements in nano-/micro-scale sensor fabrication and molecular recognition surfaces offer promising opportunities to develop miniaturized hybrid fiber optic and MEMS-based sensors for in situ analysis of chemicals and microbial pathogens in spacecraft air and water. Such sensors have extraordinary dual-use benefits in medical screening for early indication of certain cancers and rapid detection of weaponized chemical and biological agents for homeland defense.

Returning humans to the moon and "worlds beyond" as directed in the 'Vision for Space Exploration' requires manned missions of increasing duration. Increased mission duration invariably increases chemical and microbial contamination of spacecraft. Ensuring crew health and optimal systems performance thus requires sensors to continuously monitor spacecraft advanced life support systems. Presently, adequate sensors do not exist and crews must rely on labor-intensive techniques to ensure safety of drinking water and breathing air.

In Phase I we demonstrated feasibility of miniaturized polymer-coated fiber-optic cantilever arrays for monitoring toxic vapors. In Phase II we will develop next-generation hybrid cantilever and MEMS sensors for detection of various aerosolized chemical and biological contaminants at SMAC-relevant levels. To facilitate implementation by NASA end-users, sensors will be integrated and demonstrated with existing NASA air sampling devices. Phase III commercialization efforts are well underway.

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

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