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Carbon-Based Synthesized Materials for CO2 Adsorption and Conversion: Its Potential for Carbon Recycling

Tuan‐Dung Hoang, Suhaib A. Bandh, Fayaz A. Malla, Irteza Qayoom, Shahnaz Bashir, Suhail Bashir, Anthony Halog

2023Recycling42 citationsDOIOpen Access PDF

Abstract

During the last half-century, the CO2 concentration in the world’s atmosphere has increased from 310 p.p.m. to over 380 p.p.m. This is due to the widespread usage of fossil fuels as a main source of energy. Modeling forecasts have shown that this trend will continue to rise and reducing CO2 emissions is a challenging task for multi-stakeholders, including research institutions. The UN Climate Change Conference in Glasgow (COP26) has stressed that stakeholders need to work together to achieve a NetZero target. Technologies involving absorbents for the capture of CO2 from a gas mixture are energy-intensive. Carbon adsorption and conversion (CAC) approaches have been gaining attention recently since these technologies can mitigate CO2 emissions. In this review, materials ranging from advanced carbon-based materials to natural resources-based materials will be reviewed. Adsorption and conversion capacities as well as the scalability possibility of these technologies for solving the CO2 emission problem will be investigated. The review, therefore, is timely and meaningful concerning the net zero emission targets set by countries and developmental organizations worldwide.

Topics & Concepts

Fossil fuelCarbon fibersAdsorptionGreenhouse gasEnvironmental scienceScalabilityWork (physics)Climate changeCarbon capture and storage (timeline)Emerging technologiesEnvironmental economicsWaste managementProcess engineeringNatural resource economicsNanotechnologyComputer scienceMaterials scienceEngineeringChemistryDatabaseEconomicsComposite numberMechanical engineeringBiologyOrganic chemistryEcologyAlgorithmCarbon Dioxide Capture TechnologiesMembrane Separation and Gas TransportPhase Equilibria and Thermodynamics
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