Klaus Stoewe scite author profile

Rational materials design based on prior knowledge is attractive because it promises to avoid time-consuming synthesis and testing of numerous materials candidates. However with the increase of complexity of materials, the scientific ability for the rational materials design becomes progressively limited. As a result of this complexity, combinatorial and high-throughput (CHT) experimentation in materials science has been recognized as a new scientific approach to generate new knowledge. This review demonstrates the broad applicability of CHT experimentation technologies in discovery and optimization of new materials. We discuss general principles of CHT materials screening, followed by the detailed discussion of high-throughput materials characterization approaches, advances in data analysis/mining, and new materials developments facilitated by CHT experimentation. We critically analyze results of materials development in the areas most impacted by the CHT approaches, such as catalysis, electronic and functional materials, polymer-based industrial coatings, sensing materials, and biomaterials.

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Combinatorial and High‐Throughput Materials Science

Maier

Stoewe

Sieg

2007

ChemInform

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Infrared Thermography as a High-Throughput Tool in Catalysis Research

2012

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The so-called "emissivity corrected infrared thermography" (ecIRT) has been successfully developed and used to great effect in the field of combinatorial high-throughput studies in catalysis. A short introduction to the basics of ecIRT and the description of a typical setup is given. Research efforts from 1998 until present are summarized and selected publications with IRT applications in catalysis are highlighted. The last section of the article covers potential problems, which the observant may misinterpret as activity of the materials. The effects are classified and it is explained why they occur and what can be done to bypass them.

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New hydrogen-producing photocatalysts—A combinatorial search

Seyler

Stoewe

Maier

2007

Applied Catalysis B: Environmental

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High-throughput technology for novel SO₂oxidation catalysts

Loskyll

Stoewe

Maier

2011

Science and Technology of Advanced Materials

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We review the state of the art and explain the need for better SO 2 oxidation catalysts for the production of sulfuric acid. A high-throughput technology has been developed for the study of potential catalysts in the oxidation of SO 2 to SO 3 . High-throughput methods are reviewed and the problems encountered with their adaptation to the corrosive conditions of SO 2 oxidation are described. We show that while emissivity-corrected infrared thermography (ecIRT) can be used for primary screening, it is prone to errors because of the large variations in the emissivity of the catalyst surface. UV-visible (UV-Vis) spectrometry was selected instead as a reliable analysis method of monitoring the SO 2 conversion. Installing plain sugar absorbents at reactor outlets proved valuable for the detection and quantitative removal of SO 3 from the product gas before the UV-Vis analysis. We also overview some elements used for prescreening and those remaining after the screening of the first catalyst generations.

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Klaus Stoewe

Combinatorial and High-Throughput Screening of Materials Libraries: Review of State of the Art

Combinatorial and High‐Throughput Materials Science

Infrared Thermography as a High-Throughput Tool in Catalysis Research

New hydrogen-producing photocatalysts—A combinatorial search

High-throughput technology for novel SO₂oxidation catalysts

Contact Info

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Resources

About

Klaus Stoewe

Combinatorial and High-Throughput Screening of Materials Libraries: Review of State of the Art

Combinatorial and High‐Throughput Materials Science

Infrared Thermography as a High-Throughput Tool in Catalysis Research

New hydrogen-producing photocatalysts—A combinatorial search

High-throughput technology for novel SO2oxidation catalysts

Contact Info

Product

Resources

About

High-throughput technology for novel SO₂oxidation catalysts