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Continuous-feed nanocasting process for the synthesis of bismuth nanowire composites

Koen Vandaele, JP Heremans, Isabel Van Driessche UGent, Pascal Van Der Voort UGent and Klaartje De Buysser UGent (2017) CHEMICAL COMMUNICATIONS. 53(91). p.12294-12297
abstract
We present a novel, continuous-feed nanocasting procedure for the synthesis of bismuth nanowire structures embedded in the pores of a mesoporous silica template. The immobilization of a bismuth salt inside the silica template froma dilutedmetal salt solution yields a sufficiently high loading to obtain electrically conducting bulk nanowire composite samples after reduction and sintering the nanocomposite powders. Electrical resistivity measurements of sintered bismuth nanowires embedded in the silica template reveal size-quantization effects.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
keyword
METAL-OXIDES, THERMOELECTRIC FIGURE, CATALYTIC-PROPERTIES, TRANSPORT-PROPERTIES, MESOPOROUS SILICA, HARD TEMPLATES, SBA-15 SILICAS, NANOPARTICLES, STRATEGY, ARRAYS
journal title
CHEMICAL COMMUNICATIONS
Chem. Commun.
volume
53
issue
91
pages
12294 - 12297
Web of Science type
Article
Web of Science id
000415061300010
ISSN
1359-7345
1364-548X
DOI
10.1039/c7cc04499b
language
English
UGent publication?
yes
classification
A1
copyright statement
I have transferred the copyright for this publication to the publisher
id
8539927
handle
http://hdl.handle.net/1854/LU-8539927
date created
2017-12-01 09:17:55
date last changed
2018-01-10 10:37:45
@article{8539927,
  abstract     = {We present a novel, continuous-feed nanocasting procedure for the synthesis of bismuth nanowire structures embedded in the pores of a mesoporous silica template. The immobilization of a bismuth salt inside the silica template froma dilutedmetal salt solution yields a sufficiently high loading to obtain electrically conducting bulk nanowire composite samples after reduction and sintering the nanocomposite powders. Electrical resistivity measurements of sintered bismuth nanowires embedded in the silica template reveal size-quantization effects.},
  author       = {Vandaele, Koen and Heremans, JP and Van Driessche, Isabel and Van Der Voort, Pascal and De Buysser, Klaartje},
  issn         = {1359-7345},
  journal      = {CHEMICAL COMMUNICATIONS},
  keyword      = {METAL-OXIDES,THERMOELECTRIC FIGURE,CATALYTIC-PROPERTIES,TRANSPORT-PROPERTIES,MESOPOROUS SILICA,HARD TEMPLATES,SBA-15 SILICAS,NANOPARTICLES,STRATEGY,ARRAYS},
  language     = {eng},
  number       = {91},
  pages        = {12294--12297},
  title        = {Continuous-feed nanocasting process for the synthesis of bismuth nanowire composites},
  url          = {http://dx.doi.org/10.1039/c7cc04499b},
  volume       = {53},
  year         = {2017},
}

Chicago
Vandaele, Koen, JP Heremans, Isabel Van Driessche, Pascal Van Der Voort, and Klaartje De Buysser. 2017. “Continuous-feed Nanocasting Process for the Synthesis of Bismuth Nanowire Composites.” Chemical Communications 53 (91): 12294–12297.
APA
Vandaele, Koen, Heremans, J., Van Driessche, I., Van Der Voort, P., & De Buysser, K. (2017). Continuous-feed nanocasting process for the synthesis of bismuth nanowire composites. CHEMICAL COMMUNICATIONS, 53(91), 12294–12297.
Vancouver
1.
Vandaele K, Heremans J, Van Driessche I, Van Der Voort P, De Buysser K. Continuous-feed nanocasting process for the synthesis of bismuth nanowire composites. CHEMICAL COMMUNICATIONS. 2017;53(91):12294–7.
MLA
Vandaele, Koen, JP Heremans, Isabel Van Driessche, et al. “Continuous-feed Nanocasting Process for the Synthesis of Bismuth Nanowire Composites.” CHEMICAL COMMUNICATIONS 53.91 (2017): 12294–12297. Print.