Thick film ceramic combinatorial libraries: the substrate problem
Thick film ceramic combinatorial libraries: the substrate problem
Discrete, thick-film, combinatorial libraries of ceramics are made by computer controlled mixing of well-dispersed suspensions of commercially available powders followed by deposition of droplets on a substrate for drying and subsequent firing. The substrate influences the shape and size of the samples through spreading effects. Later, at the firing stage, interaction with the substrate can involve reactions that adulterate the composition or low adhesion that can result in sample loss during transport. We describe substrate pretreatment with a perfluorinated silane to provide control of droplet size and prevent spreading. Substrate compatibility during high temperature firing is more problematic and we discuss the limited material choices. One approach seeks a substrate that will support the library from beginning to end of the preparatory stage and during storage. An alternative method involves firing samples on low adhesion substrates followed by pneumatic transfer to a silver electroding paste and a low temperature firing. This method provides sufficiently strong adhesion to allow libraries of samples to be surface-ground a give a flat parallel configuration on a common electrode together with robust construction for storage and transport.
ceramic, combinatorial libraries, high throughput, substrate
1036-1045
Zhan, Yong
26ed0b07-5200-407d-84f2-3b9fa2e75cbc
Chen, Lifeng
5e67c8cc-4317-4ceb-9d78-74cbc4beb8cd
Yang, Shoufeng
e0018adf-8123-4a54-b8dd-306c10ca48f1
Evans, Julian R.G.
4eee463a-4dd3-4ef2-b9bc-784246b68ad2
October 2007
Zhan, Yong
26ed0b07-5200-407d-84f2-3b9fa2e75cbc
Chen, Lifeng
5e67c8cc-4317-4ceb-9d78-74cbc4beb8cd
Yang, Shoufeng
e0018adf-8123-4a54-b8dd-306c10ca48f1
Evans, Julian R.G.
4eee463a-4dd3-4ef2-b9bc-784246b68ad2
Zhan, Yong, Chen, Lifeng, Yang, Shoufeng and Evans, Julian R.G.
(2007)
Thick film ceramic combinatorial libraries: the substrate problem.
QSAR & Combinatorial Science, 26 (10), .
(doi:10.1002/qsar.200620162).
Abstract
Discrete, thick-film, combinatorial libraries of ceramics are made by computer controlled mixing of well-dispersed suspensions of commercially available powders followed by deposition of droplets on a substrate for drying and subsequent firing. The substrate influences the shape and size of the samples through spreading effects. Later, at the firing stage, interaction with the substrate can involve reactions that adulterate the composition or low adhesion that can result in sample loss during transport. We describe substrate pretreatment with a perfluorinated silane to provide control of droplet size and prevent spreading. Substrate compatibility during high temperature firing is more problematic and we discuss the limited material choices. One approach seeks a substrate that will support the library from beginning to end of the preparatory stage and during storage. An alternative method involves firing samples on low adhesion substrates followed by pneumatic transfer to a silver electroding paste and a low temperature firing. This method provides sufficiently strong adhesion to allow libraries of samples to be surface-ground a give a flat parallel configuration on a common electrode together with robust construction for storage and transport.
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Published date: October 2007
Keywords:
ceramic, combinatorial libraries, high throughput, substrate
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 165063
URI: http://eprints.soton.ac.uk/id/eprint/165063
ISSN: 1611-020X
PURE UUID: 729a67fc-fed1-49ae-9765-e04dd75de2bf
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Date deposited: 07 Oct 2010 11:15
Last modified: 14 Mar 2024 02:09
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Contributors
Author:
Yong Zhan
Author:
Lifeng Chen
Author:
Julian R.G. Evans
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