Samir Chakhari scite author profile

This work reported the synthesis of stainless-steel wire-mesh (SSWM) supported CeO2 with predominantly exposed (111) and (220) planes of high technological interest with a crystal size of about 7 nm and a high specific area ~ 120 m2g− 1 using the sacrificial template-accelerated hydrolysis (STAH) technique. To accomplish this outstanding process, the key ingeniousness here was employing a template (SSWM-supported ZnO oxide). As a manner to experiment SSWM supported CeO2 it was successfully tested for CO oxidation. The trials depicted that T50, the temperature at which 50% of CO conversion was achieved, was found to be 220°C, and T100, the temperature at which 100% of CO conversion was reached, was observed to be300°C. Also, the CeO2 catalyst showed good durability at 300°C during 12 h implying that CeO2 prepared using the STAH technique is robust and promising for prolonged periods of treatment. This method provided a new way to fabricate flexible nanosized functional CeO2 oxide such as structured catalysts, sensor arrays, batteries, bioactive materials, etc.

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Samir Chakhari

Textural, structural and catalytic properties of zirconia doped by heteropolytungstic acid: a comparative study between aerogel and xerogel catalysts

Effect of the doping agent nature on the characteristic and catalytic properties of aerogel zirconia catalysts doped with sulfate groups or heteropolytungstic acid

Synthesis of CeO 2 Nanosheet with Predominantly Exposed (111) and (220) Planes via Sacrificial-Template Accelerated Hydrolysis for CO Oxidation Reaction

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