Your search keyword '"Duyar, Melis S."' showing total 3 results

1. Unravelling the CO2 capture and conversion mechanism of a NiRu–Na2O switchable dual-function material in various CO2 utilisation reactions.

Author

Merkouri, Loukia-Pantzechroula, Martín-Espejo, Juan Luis, Bobadilla, Luis F., Odriozola, José Antonio, Penkova, Anna, Ramirez Reina, Tomas, and Duyar, Melis S.

Abstract

Time-resolved operando DRIFTS-MS was performed to elucidate the CO2 capture and conversion mechanisms of a NiRuNa/CeAl DFM in CO2 methanation, reverse water–gas shift, and dry reforming of methane. CO2 was captured mainly in the form of carbonyls and bidentate carbonates, and a spillover mechanism occurred to obtain the desired products. [ABSTRACT FROM AUTHOR]

Published

2023

2. Feasibility of switchable dual function materials as a flexible technology for CO2 capture and utilisation and evidence of passive direct air capture.

Author

Merkouri, Loukia-Pantzechroula, Ramirez Reina, Tomas, and Duyar, Melis S.

Published

2022

3. Carbon-based catalysts for Fischer–Tropsch synthesis.

Author

Chen, Yanping, Wei, Jiatong, Duyar, Melis S., Ordomsky, Vitaly V., Khodakov, Andrei Y., and Liu, Jian

Subjects

CATALYST synthesis, GAS as fuel, CARBON nanofibers, FISCHER-Tropsch process, SHALE gas, CARBON nanotubes, METAL-organic frameworks, ACTIVATED carbon

Abstract

Fischer–Tropsch synthesis (FTS) is an essential approach to convert coal, biomass, and shale gas into fuels and chemicals, such as lower olefins, gasoline, diesel, and so on. In recent years, there has been increasing motivation to deploy FTS at commercial scales which has been boosting the discovery of high performance catalysts. In particular, the importance of support in modulating the activity of metals has been recognized and carbonaceous materials have attracted attention as supports for FTS. In this review, we summarised the substantial progress in the preparation of carbon-based catalysts for FTS by applying activated carbon (AC), carbon nanotubes (CNTs), carbon nanofibers (CNFs), carbon spheres (CSs), and metal–organic frameworks (MOFs) derived carbonaceous materials as supports. A general assessment of carbon-based catalysts for FTS, concerning the support and metal properties, activity and products selectivity, and their interactions is systematically discussed. Finally, current challenges and future trends in the development of carbon-based catalysts for commercial utilization in FTS are proposed. [ABSTRACT FROM AUTHOR]

Published

2021