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Nonvacuum-based deposition techniques for superconducting ceramic coatings.

Isabel Van Driessche UGent, Greet Penneman, Els Bruneel UGent and Serge Hoste UGent (2002) PURE AND APPLIED CHEMISTRY. 74 (11. p.2101-2109
abstract
The widespread use of vacuum-based techniques for the deposition of ceramic coatings with specific electric, magnetic, optical, and mechanical properties is well established in the research environment, and some of them have been implemented in a variety of industrial processes. However, obtaining uninterrupted deposition at high speed, increasing flexibility in composition and in film thickness, and attaining independence of geometric constraints are areas in which many vacuum techniques will need sustained development in order to answer industrial demands. The development of the next generation of deposition methods, which could alleviate some of these shortcomings and which are based on deposition under atmospheric environment and from aqueous precursor materials, is a real challenge for the community of solid-state chemists and delineates the subject of this overview.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (proceedingsPaper)
publication status
published
subject
journal title
PURE AND APPLIED CHEMISTRY
Pure Appl. Chem.
volume
74 (11
pages
2101-2109 pages
Web of Science type
Proceedings Paper
Web of Science id
000181598200009
JCR category
CHEMISTRY, MULTIDISCIPLINARY
JCR impact factor
1.75 (2002)
JCR rank
27/118 (2002)
JCR quartile
1 (2002)
ISSN
0033-4545
language
English
UGent publication?
yes
classification
A1
id
162368
handle
http://hdl.handle.net/1854/LU-162368
date created
2004-01-14 13:39:00
date last changed
2018-01-29 12:12:59
@article{162368,
  abstract     = {The widespread use of vacuum-based techniques for the deposition of ceramic coatings with specific electric, magnetic, optical, and mechanical properties is well established in the research environment, and some of them have been implemented in a variety of industrial processes. However, obtaining uninterrupted deposition at high speed, increasing flexibility in composition and in film thickness, and attaining independence of geometric constraints are areas in which many vacuum techniques will need sustained development in order to answer industrial demands. The development of the next generation of deposition methods, which could alleviate some of these shortcomings and which are based on deposition under atmospheric environment and from aqueous precursor materials, is a real challenge for the community of solid-state chemists and delineates the subject of this overview.},
  author       = {Van Driessche, Isabel and Penneman, Greet and Bruneel, Els and Hoste, Serge},
  issn         = {0033-4545},
  journal      = {PURE AND APPLIED CHEMISTRY},
  language     = {eng},
  pages        = {2101--2109},
  title        = {Nonvacuum-based deposition techniques for superconducting ceramic coatings.},
  volume       = {74 (11},
  year         = {2002},
}

Chicago
Van Driessche, Isabel, Greet Penneman, Els Bruneel, and Serge Hoste. 2002. “Nonvacuum-based Deposition Techniques for Superconducting Ceramic Coatings.” Pure and Applied Chemistry 74 (11: 2101–2109.
APA
Van Driessche, I., Penneman, G., Bruneel, E., & Hoste, S. (2002). Nonvacuum-based deposition techniques for superconducting ceramic coatings. PURE AND APPLIED CHEMISTRY, 74 (11, 2101–2109.
Vancouver
1.
Van Driessche I, Penneman G, Bruneel E, Hoste S. Nonvacuum-based deposition techniques for superconducting ceramic coatings. PURE AND APPLIED CHEMISTRY. 2002;74 (11:2101–9.
MLA
Van Driessche, Isabel, Greet Penneman, Els Bruneel, et al. “Nonvacuum-based Deposition Techniques for Superconducting Ceramic Coatings.” PURE AND APPLIED CHEMISTRY 74 (11 (2002): 2101–2109. Print.