Microreactor cells for high-throughput X-ray absorption spectroscopy

Sven Schroeder; Angela Beesley; Nikolaos Tsapatsaris; Norbert Weiher; Moniek Tromp; John Evans; Andy Dent; Ian Harvey; Sven L M Schroeder

doi:10.1063/1.2436403

Microreactor cells for high-throughput X-ray absorption spectroscopy

Sven Schroeder, Angela Beesley, Nikolaos Tsapatsaris, Norbert Weiher, Moniek Tromp, John Evans, Andy Dent, Ian Harvey, Sven L M Schroeder

Research output: Contribution to journal › Article › peer-review

Abstract

High-throughput experimentation has been applied to X-ray Absorption spectroscopy as a novel route for increasing research productivity in the catalysis community. Suitable instrumentation has been developed for the rapid determination of the local structure in the metal component of precursors for supported catalysts. An automated analytical workflow was implemented that is much faster than traditional individual spectrum analysis. It allows the generation of structural data in quasi-real time. We describe initial results obtained from the automated high throughput (HT) data reduction and analysis of a sample library implemented through the 96 well-plate industrial standard. The results show that a fully automated HT-XAS technology based on existing industry standards is feasible and useful for the rapid elucidation of geometric and electronic structure of materials. © 2007 American Institute of Physics.

Original language	English
Pages (from-to)	1735-1738
Number of pages	3
Journal	AIP Conference Proceedings
Volume	879
DOIs	https://doi.org/10.1063/1.2436403
Publication status	Published - 2007

Keywords

Catalysis
EXAFS
High-throughput
XANES
XAS

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10.1063/1.2436403

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title = "Microreactor cells for high-throughput X-ray absorption spectroscopy",

abstract = "High-throughput experimentation has been applied to X-ray Absorption spectroscopy as a novel route for increasing research productivity in the catalysis community. Suitable instrumentation has been developed for the rapid determination of the local structure in the metal component of precursors for supported catalysts. An automated analytical workflow was implemented that is much faster than traditional individual spectrum analysis. It allows the generation of structural data in quasi-real time. We describe initial results obtained from the automated high throughput (HT) data reduction and analysis of a sample library implemented through the 96 well-plate industrial standard. The results show that a fully automated HT-XAS technology based on existing industry standards is feasible and useful for the rapid elucidation of geometric and electronic structure of materials. {\textcopyright} 2007 American Institute of Physics.",

keywords = "Catalysis, EXAFS, High-throughput, XANES, XAS",

author = "Sven Schroeder and Angela Beesley and Nikolaos Tsapatsaris and Norbert Weiher and Moniek Tromp and John Evans and Andy Dent and Ian Harvey and Schroeder, {Sven L M}",

year = "2007",

doi = "10.1063/1.2436403",

language = "English",

volume = "879",

pages = "1735--1738",

journal = "AIP Conference Proceedings",

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publisher = "American Institute of Physics",

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T1 - Microreactor cells for high-throughput X-ray absorption spectroscopy

AU - Schroeder, Sven

AU - Beesley, Angela

AU - Tsapatsaris, Nikolaos

AU - Weiher, Norbert

AU - Tromp, Moniek

AU - Evans, John

AU - Dent, Andy

AU - Harvey, Ian

AU - Schroeder, Sven L M

PY - 2007

Y1 - 2007

N2 - High-throughput experimentation has been applied to X-ray Absorption spectroscopy as a novel route for increasing research productivity in the catalysis community. Suitable instrumentation has been developed for the rapid determination of the local structure in the metal component of precursors for supported catalysts. An automated analytical workflow was implemented that is much faster than traditional individual spectrum analysis. It allows the generation of structural data in quasi-real time. We describe initial results obtained from the automated high throughput (HT) data reduction and analysis of a sample library implemented through the 96 well-plate industrial standard. The results show that a fully automated HT-XAS technology based on existing industry standards is feasible and useful for the rapid elucidation of geometric and electronic structure of materials. © 2007 American Institute of Physics.

AB - High-throughput experimentation has been applied to X-ray Absorption spectroscopy as a novel route for increasing research productivity in the catalysis community. Suitable instrumentation has been developed for the rapid determination of the local structure in the metal component of precursors for supported catalysts. An automated analytical workflow was implemented that is much faster than traditional individual spectrum analysis. It allows the generation of structural data in quasi-real time. We describe initial results obtained from the automated high throughput (HT) data reduction and analysis of a sample library implemented through the 96 well-plate industrial standard. The results show that a fully automated HT-XAS technology based on existing industry standards is feasible and useful for the rapid elucidation of geometric and electronic structure of materials. © 2007 American Institute of Physics.

KW - Catalysis

KW - EXAFS

KW - High-throughput

KW - XANES

KW - XAS

U2 - 10.1063/1.2436403

DO - 10.1063/1.2436403

M3 - Article

SN - 1551-7616

VL - 879

SP - 1735

EP - 1738

JO - AIP Conference Proceedings

JF - AIP Conference Proceedings

ER -

Microreactor cells for high-throughput X-ray absorption spectroscopy

Abstract

Keywords

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