Jeff Patmore scite author profile

The production of continuous fibers made purely of carbon nanotubes has paved the way for new macro‐scale applications which utilize the superior properties of individual carbon nanotubes. These wire‐like macroscopic assemblies of carbon nanotubes were recognized to have a potential to be used in electrical wiring. Carbon nanotube wiring may be extremely light and mechanically stronger and more efficient in transferring high frequency signals than any conventional conducting material, being cost‐effective simultaneously. However, transfer of the unique properties of individual CNTs to the macro‐scale proves to be quite challenging. This Feature Article gives an overview of the potential of using carbon nanotube fibers as next generation wiring, state of the art developments in this field, and goals to be achieved before carbon nanotubes may be transformed into competitive products.

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Replacing Copper Wires with Carbon Nanotube Wires in Electrical Transformers

Kurzepa

Łękawa-Raus

Patmore³

et al. 2013

Adv Funct Materials

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Carbon nanotubes, with their unique physical properties, have the potential to outperform conventionally used electrical wiring metals. Any improvement in this area of technology would be of great importance to industry, the economy, and the environment, as the global need for electrical energy and its effi cient transfer and conversion rapidly increases. Carbon nanotube fi bers, which are assemblies made purely of carbon nanotubes, can uniquely be used in macroscopic electrical applications including electrical wires and devices where the operation is enabled by these conductors. This paper presents details of the working prototype of an electrical machine, a transformer, where conventional copper wires have been replaced with conducting wires made purely of carbon nanotube fi bers.

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Electrical transport in carbon nanotube fibres

Łękawa-Raus

Giżewski

Patmore³

et al. 2017

Scripta Materialia

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Identifying the Science and Technology Dimensions of Emerging Public Policy Issues through Horizon Scanning

et al. 2014

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Public policy requires public support, which in turn implies a need to enable the public not just to understand policy but also to be engaged in its development. Where complex science and technology issues are involved in policy making, this takes time, so it is important to identify emerging issues of this type and prepare engagement plans. In our horizon scanning exercise, we used a modified Delphi technique [1]. A wide group of people with interests in the science and policy interface (drawn from policy makers, policy adviser, practitioners, the private sector and academics) elicited a long list of emergent policy issues in which science and technology would feature strongly and which would also necessitate public engagement as policies are developed. This was then refined to a short list of top priorities for policy makers. Thirty issues were identified within broad areas of business and technology; energy and environment; government, politics and education; health, healthcare, population and aging; information, communication, infrastructure and transport; and public safety and national security.

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Washable, colored and textured, carbon nanotube textile yarns

Lepak-Kuc

Taborowska

Tran

et al. 2021

Carbon

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Jeff Patmore

Electrical Properties of Carbon Nanotube Based Fibers and Their Future Use in Electrical Wiring

Replacing Copper Wires with Carbon Nanotube Wires in Electrical Transformers

Electrical transport in carbon nanotube fibres

Identifying the Science and Technology Dimensions of Emerging Public Policy Issues through Horizon Scanning

Washable, colored and textured, carbon nanotube textile yarns

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