Themed collection CO2 Conversion

15 items
Open Access Perspective

Realities of the consortium approach in science: sustainable enzymatic production of C1 chemicals from carbon dioxide

This perspective reflects on the implementation of a multidisciplinary consortium project combining biological, chemical and computational sciences to discover and develop new enzymes for carbon dioxide fixation.

Graphical abstract: Realities of the consortium approach in science: sustainable enzymatic production of C1 chemicals from carbon dioxide
From the themed collection: CO2 Conversion
Open Access Critical Review

Carboxylation reactions for the sustainable manufacture of chemicals and monomers

Carboxylation is a promising and versatile technology for producing industrially valuable products, being a potential process for future use of captured CO2. Enzymatic and thermochemical routes are the closest to being scaled up.

Graphical abstract: Carboxylation reactions for the sustainable manufacture of chemicals and monomers
From the themed collection: CO2 Conversion
Open Access Critical Review

Recent advances in CO2 hydrogenation to methane using single-atom catalysts

Catalytic reduction of CO2 to methane conversion by single-atom catalysts (SACs).

Graphical abstract: Recent advances in CO2 hydrogenation to methane using single-atom catalysts
From the themed collection: RSC Sustainability Recent Review Articles
Open Access Accepted Manuscript - Paper

CO2 hydrogenation on Ruthenium : Comparative study of catalyst supports

From the themed collection: CO2 Conversion
Open Access Paper

CeNiO3 perovskite nanoparticles synthesized using gelatin as a chelating agent for CO2 dry reforming of methane

Dry reforming of methane on CeNiO3 nanoparticles.

Graphical abstract: CeNiO3 perovskite nanoparticles synthesized using gelatin as a chelating agent for CO2 dry reforming of methane
From the themed collection: CO2 Conversion
Open Access Paper

How reduction temperature influences the structure of perovskite-oxide catalysts during the dry reforming of methane

Effects of pre-treatment temperatures on the catalytic activity of a Ni-doped perovskite for dry reforming of methane were studied. Particles form at optimal temperatures that are stable under reaction conditions, shown by in situ XRD measurements.

Graphical abstract: How reduction temperature influences the structure of perovskite-oxide catalysts during the dry reforming of methane
From the themed collection: CO2 Conversion
Open Access Paper

Tuning acid extraction of magnesium and calcium from platinum group metal tailings for CO2 conversion and storage

Optimizing calcium and magnesium extraction from platinum group metal mine tailings for enhanced CO2 storage via a pH-swing process.

Graphical abstract: Tuning acid extraction of magnesium and calcium from platinum group metal tailings for CO2 conversion and storage
From the themed collection: CO2 Conversion
Open Access Paper

Bimetallic CuPd nanoparticles supported on ZnO or graphene for CO2 and CO conversion to methane and methanol

CO2 and CO valorization to methanol and methane over Cu or CuPd nanoparticles supported on ZnO or graphene. The catalysts demonstrate high efficiency, favouring methane at lower metal loading but methanol at high copper content.

Graphical abstract: Bimetallic CuPd nanoparticles supported on ZnO or graphene for CO2 and CO conversion to methane and methanol
From the themed collection: CO2 Conversion
Open Access Paper

Hydrothermal synthesis of ZnZrOx catalysts for CO2 hydrogenation to methanol: the effect of pH on structure and activity

With the growing necessity of achieving carbon neutrality in the industrial sector, the catalytic hydrogenation of carbon dioxide into methanol has been widely considered one of the key strategies for the utilization of captured CO2.

Graphical abstract: Hydrothermal synthesis of ZnZrOx catalysts for CO2 hydrogenation to methanol: the effect of pH on structure and activity
From the themed collection: CO2 Conversion
Open Access Paper

Insertion of CO2 to 2-methyl furoate promoted by a cobalt hypercrosslinked polymer catalyst to obtain a monomer of CO2-based biopolyesters

2,5-Furan Dicarboxylic Methyl Ester (FDME) was obtained from CO2 and methyl furoate using a cobalt-based heterogeneous catalyst prepared by mechanochemical polymerization. FDME was validated in the synthesis of a biopolyester.

Graphical abstract: Insertion of CO2 to 2-methyl furoate promoted by a cobalt hypercrosslinked polymer catalyst to obtain a monomer of CO2-based biopolyesters
From the themed collection: CO2 Conversion
Open Access Paper

Lanthanide promoted nickel catalysts for the integrated capture and conversion of carbon dioxide to methane via metal carbonates

An integrated CO2 capture and conversion system utilizing metal hydroxide salts has been developed to capture CO2 from various sources including air in the form of carbonate salts and convert them directly into a synthetic fuel; methane.

Graphical abstract: Lanthanide promoted nickel catalysts for the integrated capture and conversion of carbon dioxide to methane via metal carbonates
From the themed collection: CO2 Conversion
Open Access Paper

Establishing ultraporous permanently polarized hydroxyapatite as a green and highly efficient catalyst for carbon dioxide conversion in continuous flow under mild conditions

Ultraporous permanently polarized hydroxyapatite catalysts are successfully used as an alternative to conventional industrial catalysts for the production of value-added chemical products from CO2 under truly sustainable and green conditions.

Graphical abstract: Establishing ultraporous permanently polarized hydroxyapatite as a green and highly efficient catalyst for carbon dioxide conversion in continuous flow under mild conditions
From the themed collection: CO2 Conversion
Open Access Paper

Polymerized ionic liquid Co-catalysts driving photocatalytic CO2 transformation

An ionic liquid polymeric matrix is used to immobilize a ruthenium photosensitizer and rhenium catalyst for selective CO2 reduction to CO.

Graphical abstract: Polymerized ionic liquid Co-catalysts driving photocatalytic CO2 transformation
From the themed collection: CO2 Conversion
Open Access Paper

Pressure-dependent CO2 thermolysis on barium titanate nanocatalysts

BaTiO3 nanocatalysts chemisorb and reduce CO2 efficiently at 700 K and 0.1–1.0 MPa.

Graphical abstract: Pressure-dependent CO2 thermolysis on barium titanate nanocatalysts
From the themed collection: CO2 Conversion
Open Access Paper

A solid xantphos macroligand based on porous organic polymers for the catalytic hydrogenation of CO2

A xanthphos-based porous organic polymer enables the support of a molecular ruthenium complex as solid catalyst for the hydrogenation of CO2 to formic acid as renewable platform chemical.

Graphical abstract: A solid xantphos macroligand based on porous organic polymers for the catalytic hydrogenation of CO2
From the themed collection: CO2 Conversion
15 items

About this collection

CO2 conversion is a critical area of research in sustainable chemistry, which aims to develop processes and technologies that minimize the use of hazardous materials and energy while reducing the environmental impact of chemical manufacturing.

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