Meera A. Shah scite author profile

The valorization of CO 2 appeals to the chemical industry due to the reduction in greenhouse gas emissions and the ability to offer more renewable products. Propylene production is the second largest process in the chemical industry, and it strongly depends on fossil fuel feedstocks. Coupling CO 2 reduction with propane dehydrogenation boosts conversion and produces CO, a valuable platform chemical currently synthesized by fossil-methane reforming. In this work, (i) we demonstrate the environmental benefits of coupling CO 2 with a life-cycle assessment under industrial conditions, potentially reducing emissions by 3 t CO2-eq per ton of propylene produced. (ii) We screen supported catalytic materials�both known and novel�with a focus on propane and CO 2 reaction mechanisms under industrial reaction conditions of 400−700 °C and pressures of 1−6 barg (redox: V,

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Catalytic amination of lactic acid using Ru–zeolites

Shah

Khalil

Tallarico

et al. 2022

Dalton Trans.

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Meera A. Shah

On the key role of aluminium and other heteroatoms during interzeolite conversion synthesis

Direct conversion of methane to methanol with zeolites: towards understanding the role of extra-framework d-block metal and zeolite framework type

Reshaping the Role of CO₂ in Propane Dehydrogenation: From Waste Gas to Platform Chemical

Catalytic amination of lactic acid using Ru–zeolites

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About

Meera A. Shah

On the key role of aluminium and other heteroatoms during interzeolite conversion synthesis

Direct conversion of methane to methanol with zeolites: towards understanding the role of extra-framework d-block metal and zeolite framework type

Reshaping the Role of CO2 in Propane Dehydrogenation: From Waste Gas to Platform Chemical

Catalytic amination of lactic acid using Ru–zeolites

Contact Info

Product

Resources

About

Reshaping the Role of CO₂ in Propane Dehydrogenation: From Waste Gas to Platform Chemical