Low-Temperature solution processing of graphene-carbon nanotube hybrid materials for high-performance transparent conductors

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Abstract

We report the formation of a nanocomposite comprised of chemically converted graphene and carbon nanotubes. Our solution-based method does not require surfactants, thus preserving the intrinsic electronic and mechanical properties of both components, delivering 240 ω/ at 86% transmittance. This low-temperature process is completely compatible with flexible substrates and does not require a sophisticated transfer process. We believe that this technology is inexpensive, is massively scalable, and does not suffer from several shortcomings of indium tin oxide. A proof-of-concept application in a polymer solar cell with power conversion efficiency of 0.85% is demonstrated. Preliminary experiments in chemical doping are presented and show that optimization of this material is not limited to improvements in layer morphology. © 2009 American Chemical Society.

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Tung, V. C., Chen, L. M., Allen, M. J., Wassei, J. K., Nelson, K., Kaner, R. B., & Yang, Y. (2009). Low-Temperature solution processing of graphene-carbon nanotube hybrid materials for high-performance transparent conductors. Nano Letters, 9(5), 1949–1955. https://doi.org/10.1021/nl9001525

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