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Conductivity and Ambient Stability of Halogen-Doped Carbon Nanotube FibersCarbon nanotube fibers were fabricated using a variety of spinning conditions and post-spinning processing with the goal of creating a high-conductivity yet environmentally stable fiber. These fiber variants were then doped with bromine, iodine, iodine chloride, or iodine bromide and their electrical and microstructural properties were characterized. Environmentally stable compounds were synthesized with electrical conductivity greater than 50,000 Scm.
Document ID
20140010479
Document Type
Presentation
Authors
Gaier, J. R. (NASA Glenn Research Center Cleveland, OH United States)
Chirino, C. M. (Rice Univ. Houston, TX, United States)
Chen, M. (Rice Univ. Houston, TX, United States)
Waters, D. L. (NASA Glenn Research Center Cleveland, OH United States)
Tran, Mai Kim (Rice Univ. Houston, TX, United States)
Headrick, R. (Rice Univ. Houston, TX, United States)
Young, C. C. (Rice Univ. Houston, TX, United States)
Tsentalovich, D. (Rice Univ. Houston, TX, United States)
Whiting, B. (Rice Univ. Houston, TX, United States)
Pasquali, M. (Rice Univ. Houston, TX, United States)
Waarbeek, Ron ter (Teijin Aramid Arnhem, Netherlands)
Otto, Marcin J. (Teijin Aramid Arnhem, Netherlands)
Date Acquired
August 6, 2014
Publication Date
April 21, 2014
Subject Category
Nonmetallic Materials
Report/Patent Number
GRC-E-DAA-TN14262
Meeting Information
2014 MRS Spring Meeting - Materials Research Society(San Francisco, CA)
Funding Number(s)
WBS: WBS 713030.01.04.03.01
Distribution Limits
Public
Copyright
Public Use Permitted.
Keywords
carbon fibers
carbon nanotubes
electrical resistivity

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