SBIR Phase I: Novel Sensing Materials Based on Carbon Nanotube-Polymer Composites
Materials And Electrochemical Research Corporation (Mer), Tuscon AZ
Investigators
Abstract
This Small Business Innovation Research (SBIR) Phase I project will investigate the effect of carbon nanotubes on the photoconductivity of electroactive polymer matrix composites and on their performance and sensing efficiency. Several formulations of additives/polymer(s), including functionalized carbon nanotube systems, have potential to interact selectively, sensitively, and reversibly with trace analytes in the electroactive matrix. Nanotube-polymer sensing probes based on conductivity changes or mechanical force fluctuations exerted by the surrounding media, will be developed and tested for their sensitivity, reversibility, fast response to different analytes, and chemical and environmental stability. Superior formulations will be tested and compared to existing commercial sensing materials. Commercially, conventional metal oxide and polymer based sensors are usually impractical at ambient temperature due to low sensitivity. The combination of advanced conformal coating processes and advanced formulations of nanotube/polymers has the potential to alleviate the sensitivity and response to inorganic, organic, and biological analytes. These low cost ultra-light weight nanotube-polymer composite films with improved structural, stability and electrical properties will be important for portable sensor applications.
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