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Electrically Conductive Ultrananocrystalline Diamond‐Coated Natural Graphite‐Copper Anode for New Long Life Lithium‐Ion Battery

are presented for novel nitrogen‐incorporated ultrananocrystalline diamond (N‐UNCD) encapsulated NG/copper anode and UNCD coatings that may enable next generation Li‐ion batteries (LIBs) with potential 10x longer lifetime and superior performance than current LIBs. N‐UNCD films (∼5–10 nm grain size)... Full description

Journal Title: Advanced Materials June 2014, Vol.26(22), pp.3724-3729
Main Author: Cheng, Yin‐Wei
Other Authors: Lin, Chi‐Kai , Chu, Yueh‐Chieh , Abouimrane, Ali , Chen, Zonghai , Ren, Yang , Liu, Chuan‐Pu , Tzeng, Yonhua , Auciello, Orlando
Format: Electronic Article Electronic Article
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ID: ISSN: 0935-9648 ; E-ISSN: 1521-4095 ; DOI: 10.1002/adma.201400280
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recordid: wj10.1002/adma.201400280
title: Electrically Conductive Ultrananocrystalline Diamond‐Coated Natural Graphite‐Copper Anode for New Long Life Lithium‐Ion Battery
format: Article
creator:
  • Cheng, Yin‐Wei
  • Lin, Chi‐Kai
  • Chu, Yueh‐Chieh
  • Abouimrane, Ali
  • Chen, Zonghai
  • Ren, Yang
  • Liu, Chuan‐Pu
  • Tzeng, Yonhua
  • Auciello, Orlando
subjects:
  • Conductive
  • Ultrananocrystalline Diamond
  • Coating
  • Lib Anode
ispartof: Advanced Materials, June 2014, Vol.26(22), pp.3724-3729
description: are presented for novel nitrogen‐incorporated ultrananocrystalline diamond (N‐UNCD) encapsulated NG/copper anode and UNCD coatings that may enable next generation Li‐ion batteries (LIBs) with potential 10x longer lifetime and superior performance than current LIBs. N‐UNCD films (∼5–10 nm grain size) exhibit electrical conductivity and extreme resistance to chemical corrosion, providing superior performance with respect to current uncoated anodes.
language:
source:
identifier: ISSN: 0935-9648 ; E-ISSN: 1521-4095 ; DOI: 10.1002/adma.201400280
fulltext: fulltext
issn:
  • 0935-9648
  • 09359648
  • 1521-4095
  • 15214095
url: Link


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titleElectrically Conductive Ultrananocrystalline Diamond‐Coated Natural Graphite‐Copper Anode for New Long Life Lithium‐Ion Battery
creatorCheng, Yin‐Wei ; Lin, Chi‐Kai ; Chu, Yueh‐Chieh ; Abouimrane, Ali ; Chen, Zonghai ; Ren, Yang ; Liu, Chuan‐Pu ; Tzeng, Yonhua ; Auciello, Orlando
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subjectConductive ; Ultrananocrystalline Diamond ; Coating ; Lib Anode
descriptionare presented for novel nitrogen‐incorporated ultrananocrystalline diamond (N‐UNCD) encapsulated NG/copper anode and UNCD coatings that may enable next generation Li‐ion batteries (LIBs) with potential 10x longer lifetime and superior performance than current LIBs. N‐UNCD films (∼5–10 nm grain size) exhibit electrical conductivity and extreme resistance to chemical corrosion, providing superior performance with respect to current uncoated anodes.
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titleElectrically Conductive Ultrananocrystalline Diamond‐Coated Natural Graphite‐Copper Anode for New Long Life Lithium‐Ion Battery
descriptionare presented for novel nitrogen‐incorporated ultrananocrystalline diamond (N‐UNCD) encapsulated NG/copper anode and UNCD coatings that may enable next generation Li‐ion batteries (LIBs) with potential 10x longer lifetime and superior performance than current LIBs. N‐UNCD films (∼5–10 nm grain size) exhibit electrical conductivity and extreme resistance to chemical corrosion, providing superior performance with respect to current uncoated anodes.
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titleElectrically Conductive Ultrananocrystalline Diamond‐Coated Natural Graphite‐Copper Anode for New Long Life Lithium‐Ion Battery
authorCheng, Yin‐Wei ; Lin, Chi‐Kai ; Chu, Yueh‐Chieh ; Abouimrane, Ali ; Chen, Zonghai ; Ren, Yang ; Liu, Chuan‐Pu ; Tzeng, Yonhua ; Auciello, Orlando
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abstractare presented for novel nitrogen‐incorporated ultrananocrystalline diamond (N‐UNCD) encapsulated NG/copper anode and UNCD coatings that may enable next generation Li‐ion batteries (LIBs) with potential 10x longer lifetime and superior performance than current LIBs. N‐UNCD films (∼5–10 nm grain size) exhibit electrical conductivity and extreme resistance to chemical corrosion, providing superior performance with respect to current uncoated anodes.
doi10.1002/adma.201400280
pages3724-3729
date2014-06