TiO2 nanotube branched tree on a carbon nanofiber nanostructure as an anode for high energy and power lithium ion batteries
- Authors
- Song, Taeseup; Han, Hyungkyu; Choi, Heechae; Lee, Jung Woo; Park, Hyunjung; Lee, Sangkyu; Park, Won Il; Kim, Seungchul; Liu, Li; Paik, Ungyu
- Issue Date
- 2014-04
- Publisher
- TSINGHUA UNIV PRESS
- Citation
- NANO RESEARCH, v.7, no.4, pp.491 - 501
- Abstract
- The inherently low electrical conductivity of TiO2-based electrodes as well as the high electrical resistance between an electrode and a current collector represents a major obstacle to their use as an anode for lithium ion batteries. In this study, we report on high-density TiO2 nanotubes (NTs) branched onto a carbon nanofiber (CNF) "tree" that provide a low resistance current path between the current collector and the TiO2 NTs. Compared to a TiO2 NT array grown directly on the current collector, the branched TiO2 NTs tree, coupled with the CNF electrode, exhibited similar to 10 times higher areal energy density and excellent rate capability (discharge capacity of similar to 150 mA.h.g(-1) at a current density of 1,000 mA.g(-1)). Based on the detailed experimental results and associated theoretical analysis, we demonstrate that the introduction of CNFs with direct electric contact with the current collector enables a significant increase in areal capacity (mA.h.cm(-2)) as well as excellent rate capability.
- Keywords
- ANATASE TITANIUM-DIOXIDE; ELECTROCHEMICAL PROPERTIES; STORAGE; OXIDE; ELECTRODE; INTERCALATION; PERFORMANCE; EFFICIENT; INSERTION; CAPACITY; ANATASE TITANIUM-DIOXIDE; ELECTROCHEMICAL PROPERTIES; STORAGE; OXIDE; ELECTRODE; INTERCALATION; PERFORMANCE; EFFICIENT; INSERTION; CAPACITY; titanium dioxide; carbon nanofibers; areal capacity; lithium ion batteries
- ISSN
- 1998-0124
- URI
- https://pubs.kist.re.kr/handle/201004/126938
- DOI
- 10.1007/s12274-014-0415-1
- Appears in Collections:
- KIST Article > 2014
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