期刊
CARBON
卷 195, 期 -, 页码 27-34出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.carbon.2022.04.014
关键词
conformal CVD; Carbon nanofiber; Carbon composite; Electrospinning; Joule heating
资金
- NSF's Fluid Dynamics program [CBET-1604163]
This article presents a novel technique for building carbon nanofiber composites using chemical vapor deposition (CVD) assisted by Joule heating. The heating of electrospun carbon nanofibers mats, induced by the passing of an electric current through the resistive mat and the associated Joule heating, is studied using infrared thermography. A thermal model is developed to correlate the imposed electrical dissipation and the temperature of the mat, a key variable in CVD. Joule heating is used to decompose W(CO)6 and deposit a coating of WO3-x on all carbon nanofibers without the need of annealing.
This article presents a novel technique for building carbon nanofiber composites using chemical vapor deposition (CVD) assisted by Joule heating. The heating of electrospun carbon nanofibers mats, induced by the passing of an electric current through the resistive mat and the associated Joule heating, is studied using infrared thermography. The standard deviation of the resulting temperature field is smaller than 5% of its average value, a result explained by the homogeneous and two-dimensional nature of the mat, as well as by the dominance of radiative heat transport over thermal conduction. A thermal model is developed to correlate the imposed electrical dissipation and the temperature of the mat, a key variable in CVD. Joule heating is used to decompose W(CO)6 and deposit a coating of WO3-x on all carbon nanofibers without the need of annealing. The coating is conformal, uniform along the nanofiber and across the mat, and its thickness is controlled with the voltage difference applied across the mat. Because of the wide range of temperatures that can be imposed and the variety of precursors that can be employed, CVD assisted by Joule heating is a promising method for developing new carbon composites.(C) 2022 The Authors. Published by Elsevier Ltd.
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