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Miniaturized Reactors in Combinatorial Catalysis and High-Throughput Experimentation

Zech, Torsten and Claus, Peter and Hönicke, Dieter (2002):
Miniaturized Reactors in Combinatorial Catalysis and High-Throughput Experimentation.
In: CHIMIA International Journal for Chemistry, pp. 611-620, 56, [Article]

Abstract

Different approaches to study the advantages and challenges of miniaturized reactor systems for combinatorial catalysis and high-throughput experimentation are presented. These are a parallel microchannel reactor, a chip-based 'single microchannel' reactor, a monolithic reactor acting as multichannel reactor, and a chip reactor design for liquid-phase processes. These developments are discussed in detail regarding their design, manufacturing and corresponding catalyst preparation issues. A number of applications are explained in conjunction with the description of a system for spatially resolved high-throughput analytics.

Item Type: Article
Erschienen: 2002
Creators: Zech, Torsten and Claus, Peter and Hönicke, Dieter
Title: Miniaturized Reactors in Combinatorial Catalysis and High-Throughput Experimentation
Language: English
Abstract:

Different approaches to study the advantages and challenges of miniaturized reactor systems for combinatorial catalysis and high-throughput experimentation are presented. These are a parallel microchannel reactor, a chip-based 'single microchannel' reactor, a monolithic reactor acting as multichannel reactor, and a chip reactor design for liquid-phase processes. These developments are discussed in detail regarding their design, manufacturing and corresponding catalyst preparation issues. A number of applications are explained in conjunction with the description of a system for spatially resolved high-throughput analytics.

Journal or Publication Title: CHIMIA International Journal for Chemistry
Volume: 56
Divisions: 07 Department of Chemistry
07 Department of Chemistry > Fachgebiet Technische Chemie
07 Department of Chemistry > Fachgebiet Technische Chemie > Technische Chemie II
Date Deposited: 24 Mar 2009 15:53
Identification Number: doi:10.2533/000942902777680009
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