Abstract
Buckypapers (BP) with carbon nanotubes (CNT) are very promising for a lot of applications, in which their high conductance, strength and small weight are required. In this work, isotropic BP were prepared using the solution-based deposition that includes the single walled carbon nanotubes (SWCNT) dispersion and the dispersion filtration from a solvent. To increase the BP conductivity, the orientation of the SWCNT bundles composing BP and a following iodine doping were applied. The method of extrusion through the narrow (300 µm) gap was used for the SWCNT orientation. The temperature dependences of conductance for isotropic, oriented and doped BP were studied to understand the effect of CNT alignment and the mechanism of transport through SWCNT BP. It was shown that bundle orientation increases the BP conductivity from ~10 3 S × cm -1 to ~10 4 S × cm -1 , and iodine doping of oriented samples additionally increase the conductivity by an order. The fluctuation – assisted tunneling between CNT bundles was used to describe the mechanism of low temperature conductivity.
Highlights
The method of extrusion through the narrow (300 μm) gap was used for the single walled carbon nanotubes (SWCNT) orientation
The temperature dependences of conductance for isotropic, oriented and doped BP were studied to understand the effect of carbon nanotubes (CNT) alignment and the mechanism of transport through SWCNT BP
It was shown that bundle orientation increases the BP conductivity from ~103 S ⋅ cm−1 to ~104 S ⋅ cm−1, and iodine doping of oriented samples increase the conductivity by an order
Summary
Для снижения контактного сопротивления на поверхность BP осаждали золото с последующей припайкой серебряной проволоки с использованием индия. Измерения электрической проводимости G и ее температурной зависимости G(T) выполняли четырехточечным методом на постоянном токе с
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