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The Need for Flexible Chemical Synthesis and How Dual-Function Materials Can Pave the Way

Authors :
European Commission
Engineering and Physical Sciences Research Council (UK)
Ministerio de Ciencia e Innovación (España)
Paksoy, Aysun Ipek[0000-0002-8904-0409]
Ramírez-Reina, Tomás[0000-0001-9693-5107]
Duyar, Melis S[0000-0002-9891-5932]
Merkouri, Loukia-Pantzechroula
Paksoy, Aysun Ipek
Ramírez-Reina, Tomás
Duyar, Melis S
European Commission
Engineering and Physical Sciences Research Council (UK)
Ministerio de Ciencia e Innovación (España)
Paksoy, Aysun Ipek[0000-0002-8904-0409]
Ramírez-Reina, Tomás[0000-0001-9693-5107]
Duyar, Melis S[0000-0002-9891-5932]
Merkouri, Loukia-Pantzechroula
Paksoy, Aysun Ipek
Ramírez-Reina, Tomás
Duyar, Melis S
Publication Year :
2023

Abstract

Since climate change keeps escalating, it is imperative that the increasing CO2 emissions be combated. Over recent years, research efforts have been aiming for the design and optimization of materials for CO2 capture and conversion to enable a circular economy. The uncertainties in the energy sector and the variations in supply and demand place an additional burden on the commercialization and implementation of these carbon capture and utilization technologies. Therefore, the scientific community needs to think out of the box if it is to find solutions to mitigate the effects of climate change. Flexible chemical synthesis can pave the way for tackling market uncertainties. The materials for flexible chemical synthesis function under a dynamic operation, and thus, they need to be studied as such. Dual-function materials are an emerging group of dynamic catalytic materials that integrate the CO2 capture and conversion steps. Hence, they can be used to allow some flexibility in the production of chemicals as a response to the changing energy sector. This Perspective highlights the necessity of flexible chemical synthesis by focusing on understanding the catalytic characteristics under a dynamic operation and by discussing the requirements for the optimization of materials at the nanoscale.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1431967778
Document Type :
Electronic Resource