Jan Herwig scite author profile

Enhancing the activity and stability of catalysts is a major challenge in scientific research nowadays. Previous studies showed that the generation of an additional pore system can influence the catalytic performance of porous catalysts regarding activity, selectivity, and stability. This study focuses on the epoxide-mediated sol–gel synthesis of mixed metal oxides, NiAl 2 O 4 and CoAl 2 O 4 , with a spinel phase structure, a hierarchical pore structure, and Ni and Co contents of 3 to 33 mol % with respect to the total metal content. The sol–gel process is accompanied by a polymerization-induced phase separation to introduce an additional pore system. The obtained mixed metal oxides were characterized with regard to pore morphology, surface area, and formation of the spinel phase. The Brunauer–Emmett–Teller surface area ranges from 74 to 138 m 2 ·g –1 and 25 to 94 m 2 ·g –1 for Ni and Co, respectively. Diameters of the phase separation-based macropores were between 500 and 2000 nm, and the mesopore diameters were 10 nm for the Ni-based system and between 20 and 25 nm for the cobalt spinels. Furthermore, Ni–Al spinels with 4, 5, and 6 mol % Ni were investigated in the dry reforming of CH 4 (DRM) with CO 2 to produce H 2 and CO. CH 4 conversions near the thermodynamic equilibrium were observed depending on the Ni content and reaction temperature. The Ni catalysts were further compared to a noble metal-containing catalyst based on a spinel system showing comparable CH 4 conversion and carbon selectivity in the DRM.

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Recent advances in the synthesis of hierarchically porous silica materials on the basis of porous glasses

Inayat

Reinhardt

Herwig

et al. 2016

New J. Chem.

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The thermal phase separation and subsequent leaching of sodium borosilicate glasses is a well established route for the preparation of porous glasses exhibiting adjustable pore sizes in the range of 1 nm up to almost 1 mm as well as a very flexible geometric shape. The combination of this route with a large spectrum of synthesis strategies for the implementation of an additional pore system enables the preparation of hierarchically porous glass-based materials. This review covers a wide range of preparative routes for hierarchically porous silica materials starting from the sodium borosilicate glass with a special emphasis on the very recent developments in this versatile field of materials engineering.

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Hierarchically structured glass monoliths based on polyurethane foams as template

Reinhardt

Herwig

Rannabauer

et al. 2014

Journal of the European Ceramic Society

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ChemInform Abstract: Recent Advances in the Synthesis of Hierarchically Porous Silica Materials on the Basis of Porous Glasses

et al. 2016

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Jan Herwig

Hierarchically Structured Porous Spinels via an Epoxide-Mediated Sol–Gel Process Accompanied by Polymerization-Induced Phase Separation

Recent advances in the synthesis of hierarchically porous silica materials on the basis of porous glasses

Hierarchically structured glass monoliths based on polyurethane foams as template

ChemInform Abstract: Recent Advances in the Synthesis of Hierarchically Porous Silica Materials on the Basis of Porous Glasses

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