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Title: 2018 Technology Innovation Program Carbon Nanomaterial Enabled Ultra Conductive Metal Composites

Carbon nanomaterial enabled UCC metal composites combine ORNL’s strength in nanomaterial research, electron microscopy, and scalable material processing together with novel methods to produce a scalabmore »le assembly of Cu-CNT multilayer composites. These composites enable higher electrical conductivities than that of pure Cu. Using scalable, cost-effective, and commercially viable solution-based processing methods, our technological platform achieves a high degree of CNT alignment and coating stability, which demonstrates a novel technological platform to reproducibly produce carbon nanomaterial enabled ultra conductive conductors for a broad range of electrical systems and industrial applications.« less
Title: 2018 Technology Innovation Program Carbon Nanomaterial Enabled Ultra Conductive Metal Composites
Authors:
Publication Date: 2018-07-27
OSTI Identifier: 1464788
Resource Type: Multimedia
Resource Relation: Related Information: Run time=00:01:09
Research Org: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Sponsoring Org: USDOE Office of Science (SC)
Subject: 75 CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY ; CONDUCTIVE METAL ; CONDUCTIVITY ; COPPER ; CARBON NANOMATERIAL ; ELECTRICAL SYSTEMS ; Cu-CNT MULTILAYER COMPOSITES
Country of Publication: United States
Language: English
Run Time:
System Entry Date: 2018-08-22