☆ 3.8 Review

Recent Progress in Integrated CO2 Capture and Conversion Process Using Dual Function Materials: A State-of-the-Art Review

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Engineering, Environmental

Ni-CaO dual function materials prepared by different synthetic modes for integrated CO2 capture and conversion

Guodong Wang et al.

Summary: The study investigates the synthesis of Ni-CaO dual-functional materials through different methods and finds that certain synthetic modes can result in samples with high CO2 sorption capacity and superior CO productivity. This performance is associated with better textural properties, smaller particle size, and more uniform dispersion of Ni species.

CHEMICAL ENGINEERING JOURNAL (2022)

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Article Engineering, Environmental

Integrated carbon capture and utilization: Synergistic catalysis between highly dispersed Ni clusters and ceria oxygen vacancies

Hongman Sun et al.

Summary: Integrated carbon capture and utilization (ICCU) presents an ideal solution for addressing CO2 emissions from industry and energy sectors. The coupling of porous CaO and Ni doped CeO2 nanorods facilitates CO2 capture and reduction, leading to high performance and stability. This has significant implications for the design and implementation of efficient and cost-effective ICCU materials and processes.

CHEMICAL ENGINEERING JOURNAL (2022)

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Article Engineering, Environmental

Insights into the cyclic CO2 capture and catalytic methanation over highly performing Li-Ru/Al2O3 dual function materials

Stefano Cimino et al.

Summary: This study experimentally investigated the synergistic and mechanistic aspects between CO2 capture and methanation reactions over lithium-ruthenium/Al2O3 dual function materials, revealing that the favorable synergism at the nanoscale between the Li-aluminate sorbent phase and the catalytic Ru sites can enhance the intrinsic activity of the materials.

CHEMICAL ENGINEERING JOURNAL (2022)

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Article Engineering, Chemical

Potential Application of Alkaline Metal Nitrate-Promoted Magnesium-Based Materials in the Integrated CO2 Capture and Methanation Process

Wei Liu et al.

Summary: This article introduces an integrated CO2 capture and methanation process and emphasizes the development of efficient adsorbents and catalysts. The potential application of NaNO3-promoted MgO adsorbents in the integrated process is evaluated through experiments.

INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2022)

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Article Chemistry, Physical

Continuous CO2 Capture and Selective Hydrogenation to CO over Na-Promoted Pt Nanoparticles on Al2O3

Lingcong Li et al.

Summary: The capture and reduction of CO2 using dual-functional materials for the production of C1 compounds has attracted attention as a promising process for CO2 emission reduction and utilization. In this study, Na-promoted Pt nanoparticles supported on Al2O3 were developed as an effective dual-functional material for selective CO production by capturing diluted CO2 and subsequent reduction by H-2. The developed system demonstrated stable CO2 capture ability and CO productivity for at least 100 hours of continuous operation. The effect of basic promoters on the system performance was also investigated.

ACS CATALYSIS (2022)

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Article Chemistry, Physical

Ce stabilized Ni-SrO as a catalytic phase transition sorbent for integrated CO2 capture and CH4 reforming

Haiming Gu et al.

Summary: The study demonstrates the potential application of Ni decorated and CeOx-stabilized SrO (SrCe0.5Ni0.5) as a catalytic sorbent material for carbon dioxide capture from flue gas and dry reforming of CH4, showing excellent activity and stability. This intensified process with zero coke deposition has the flexibility to produce concentrated CO via CO2-splitting while co-producing a syngas with tunable H2/CO ratios.

JOURNAL OF MATERIALS CHEMISTRY A (2022)

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Article Chemistry, Physical

Dual function materials (Ru+Na2O/Al2O3) for direct air capture of CO2 and in situ catalytic methanation: The impact of realistic ambient conditions

Chae Jeong-Potter et al.

Summary: This study investigates a dual function material (DFM) consisting of 1% Ru, 10% Na2O/gamma -Al(2)O(3) for combined direct air capture (DAC) of CO2 and catalytic methanation. The DFM exhibits high CO2 adsorption capacity and rates at ambient conditions and can be successfully converted to renewable natural gas through catalytic methanation. The study also explores adsorption under humid conditions and highlights the importance of flowrate in future reactor design.

APPLIED CATALYSIS B-ENVIRONMENTAL (2022)

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Article Energy & Fuels

Integrated CO2 capture and methanation on Ru/CeO2-MgO combined materials: Morphology effect from CeO2 support

Shuzhuang Sun et al.

Summary: Integrated CO2 capture and methanation (ICCM) is attracting more attention for reducing CO2 emissions. This study developed and applied combined materials for the ICCM process, and investigated the influence of different morphologies of CeO2 on CO2 conversion and CH4 yield. The results showed that CeO2 materials with rod and particle morphologies exhibited better catalytic performance, with the rod morphology performing exceptionally well in terms of stability and reusability. In situ DRIFTS analysis revealed important methanation intermediates in the ICCM process.

FUEL (2022)

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Article Energy & Fuels

A fundamental study of CO2 capture and CH4 production in a rapid cyclic system using nickel-lithium-silicate as a catal-sorbent

Seongbin Jo et al.

Summary: A new catal-sorbent with high CO2 capture capacity and CH4 productivity, as well as multicycle stability, has been proposed. It can be regenerated at a lower temperature and exhibits excellent performance in a rapid cyclic system.

FUEL (2022)

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Article Chemistry, Multidisciplinary

Tuning basicity of dual function materials widens operation temperature window for efficient CO2 adsorption and hydrogenation to CH4

Alejandro Bermejo-Lopez et al.

Summary: This study focuses on improving the catalytic efficiency of CO2 capture and utilization by widening the operating temperature range. Dual function materials were prepared and their performance in the hydrogenation of CO2 to CH4 was analyzed through experiments.

JOURNAL OF CO2 UTILIZATION (2022)

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Review Green & Sustainable Science & Technology

Recent Progress in Materials Exploration for Thermocatalytic, Photocatalytic, and Integrated Photothermocatalytic CO2-to-Fuel Conversion

Wenjun Zhang et al.

Summary: The conversion of carbon dioxide to fuel is an ideal method for reducing atmospheric CO2 concentration, but efficient conversion remains challenging. Photothermocatalysis has emerged as an intelligent strategy in recent years to improve CO2 conversion efficiency using solar energy. This review highlights the recent advancements in materials designing for practical CO2 conversion over the past five years, emphasizing reaction pathways and mechanisms.

ADVANCED ENERGY AND SUSTAINABILITY RESEARCH (2022)

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Review Green & Sustainable Science & Technology

Present and Projected Developments in Hydrogen Production: A Technological Review

Somtochukwu Godfrey Nnabuife et al.

Summary: Safe, environmentally friendly, dependable, and cost-effective energy supplies are crucial for long-term societal growth and improved living standards. However, barriers exist due to political, social, and economic factors. The increasing demand for energy, fueled by population growth and economic development, strains fossil fuel management and sustainability, requiring a global shift towards renewables. Hydrogen (H-2) is seen as a promising energy vector, offering numerous benefits and the potential for carbon-free or even negative life-cycle emissions.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Green & Sustainable Science & Technology

Carbonaceous materials as adsorbents for CO2 capture: synthesis and modification

Xingyuan Gao et al.

Summary: This review comprehensively discusses the application of various carbon-based materials as CO2 adsorbents, including the carbonization, activation, and modification processes, and elucidates the synthesis-structure-performance relationships in depth.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Review Green & Sustainable Science & Technology

A techno-economic review on carbon capture, utilisation and storage systems for achieving a net-zero CO2 emissions future

Wan Yun Hong

Summary: This article provides a general technoeconomic review of carbon capture, utilization, and storage (CCUS) systems, discussing the technology readiness, performance, energy requirements, and costs associated with CO2 capture, separation, transport, utilization, and storage. The challenges of current CCUS technologies can potentially be overcome by developing a commercially viable hybrid system comprising multiple technologies.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Green & Sustainable Science & Technology

Study on CO2 sorption performance and sorption kinetics of Ce- and Zr-doped CaO-based sorbents

Yinxiang Wang et al.

Summary: Ce-doped, Zr-doped, and Zr-Ce co-doped CaO-based sorbents prepared by sol-gel method showed different advantages in CO2 sorption performance. Zr-doped sorbents exhibited better stability, while Ce-doped sorbents had higher CO2 sorption rate in cycle 1. The Zr-Ce co-doped sorbents combined the advantages of high Tammann temperature and oxygen vacancy, resulting in a more balanced CO2 sorption performance.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Green & Sustainable Science & Technology

Insight and Comparison of Energy-efficient Membrane Processes for CO2 Capture from Flue Gases in Power Plant and Energy-intensive Industry

Xuezhong He et al.

Summary: Membrane systems for CO2 capture are gaining popularity due to their energy efficiency, smaller footprint, and lower environmental impact. This study focused on the design insight and comparison of different membranes for various post-combustion CO2 capture scenarios. It was found that Polaris and PolyActive membranes were cost-effective for capturing high-content CO2. Membrane systems are recommended for deployment in energy-intensive industries and operated at a moderate CO2 capture ratio of 70-80% for economic benefits.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Green & Sustainable Science & Technology

Recent advances in carbon dioxide capture for process intensification

John Buckingham et al.

Summary: This article discusses the development of carbon capture, utilization, and storage (CCUS) technologies in response to rising anthropogenic levels of carbon dioxide (CO2) in the atmosphere. It focuses on CO2 adsorbent advancements for process intensification, highlighting applications that achieve a synergistic effect between CO2 adsorption and catalytic reactions. The paper stresses the importance of developing compatible adsorbents and catalysts and explores the significance of interdisciplinary themes and research opportunities in process intensification.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Green & Sustainable Science & Technology

Techno-economic Analysis of Direct Air Carbon Capture with CO2 Utilisation

Thorin Daniel et al.

Summary: Carbon capture technologies are important for mitigating climate change, and the proposed direct air carbon capture process with chemical utilisation shows potential in offsetting the high cost of carbon capture. However, further advancements in technology and the transition to a net zero economy are necessary to achieve positive economic outcomes.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2022)

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Article Environmental Sciences

Challenges and opportunities for carbon neutrality in China

Zhu Liu et al.

Summary: China has made significant reductions in CO2 emissions, achieving objectives outlined in Nationally Appropriate Mitigation Actions and Nationally Determined Contributions. However, China still faces challenges in reaching peak CO2 emissions before 2030 and achieving carbon neutrality before 2060. Achieving these goals will require increasing non-fossil energy share, deploying negative-emission technologies, promoting low-carbon development regionally, and establishing a nationwide 'green market'.

NATURE REVIEWS EARTH & ENVIRONMENT (2022)

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Article Chemistry, Physical

Feasibility Study of Combining Direct Air Capture of CO2 and Methanation at Isothermal Conditions with Dual Function Materials

Chae Jeong-Potter et al.

Summary: The use of dual function materials (DFM) for combined direct air capture (DAC) of CO2 followed by methanation has been proven feasible. The DFM allows for capture and conversion of CO2 to occur using a single material and reactor at one temperature, maintaining high CO2 capture capacity and producing methane through multiple cycles. Additionally, cyclic operation with the DFM is possible in the presence of moisture, indicating further potential for use in DAC scenarios.

APPLIED CATALYSIS B-ENVIRONMENTAL (2021)

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Article Chemistry, Physical

Ru-Ba synergistic effect in dual functioning materials for cyclic CO2 capture and methanation

Alessandro Porta et al.

Summary: The study compared the catalytic behavior of Ru-BaO/Al2O3 with BaO/Al2O3 + Ru/Al2O3 in cyclic CO2 capture and methanation, and found that the intimate mixture has enhanced H-2 reactivity and CH4 formation.

APPLIED CATALYSIS B-ENVIRONMENTAL (2021)

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Article Engineering, Environmental

Metal-oxide stabilized CaO/CuO composites for the integrated Ca/Cu looping process

Jian Chen et al.

Summary: An integrated Ca/Cu looping process for CO2 capture was proposed, incorporating Al2O3 and MgO stabilizers to significantly enhance cyclic stability. It was found that the presence of Al2O3 improved the cyclic CO2 capture stability more effectively than MgO, with optimal quantity of 15 mol.% Al2O3 for high and stable CO2 uptake capacity. Furthermore, the cyclic stability was remarkably enhanced with increasing carbonation/oxidation temperature, suggesting the important role of intermediate phase Cu2O at high temperatures.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Engineering, Environmental

Efficient integration of CO2 capture and conversion over a Ni supported CeO2-modified CaO microsphere at moderate temperature

Jiawei Hu et al.

Summary: Efficient integration of calcium-looping and dry reforming of methane technologies on a bifunctional material can achieve effective CO2 capture and in-situ conversion to syngas during an isothermal process.

CHEMICAL ENGINEERING JOURNAL (2021)

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Review Environmental Sciences

Recent advances in ionic liquids-based hybrid processes for CO2 capture and utilization

Shaohan Lian et al.

Summary: CO2 capture and utilization is an effective strategy to mitigate global warming, although energy-intensive processes need to be overcome. By continuously developing new materials and processes, especially new generation materials like ionic liquids (ILs), performance can be improved and costs can be reduced.

JOURNAL OF ENVIRONMENTAL SCIENCES (2021)

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Article Energy & Fuels

Insights into Nickel-Based Dual Function Materials for CO2 Sorption and Methanation: Effect of Reduction Temperature

Pu Huang et al.

Summary: In this study, a Ni/CeO2 catalyst was prepared with reduced temperature significantly decreased to 300 degrees C, exhibiting high CO2 conversion and CH4 selectivity. The (Li-Na-K)NO3-MgO-Ni/CeO2-phy DFMs constructed showed impressive CO2 uptake and CH4 yield at 300 degrees C, providing a promising alternative to Ru-based DFMs with comparable CO2 sorption capacity and methanation activity.

ENERGY & FUELS (2021)

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Review Thermodynamics

The current status of high temperature electrochemistry-based CO2 transport membranes and reactors for direct CO2 capture and conversion

Peng Zhang et al.

Summary: In recent years, the concept of direct CO2 capture and conversion has attracted significant interest due to its potential to address global warming, fossil fuel depletion, and carbon neutral ecosystem. While current CO2 capture technologies are energy intensive and costly, CO2 conversion technologies are still in their early stages with technical challenges to overcome. The emerging high-temperature electrochemical CO2 transport membranes offer a promising approach for capturing and converting CO2 in a single catalytic reactor, with potential for future development.

PROGRESS IN ENERGY AND COMBUSTION SCIENCE (2021)

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Review Chemistry, Multidisciplinary

A critical review in recent developments of metal-organic-frameworks (MOFs) with band engineering alteration for photocatalytic CO2 reduction to solar fuels

Riyadh Ramadhan Ikreedeegh et al.

Summary: This paper explores the recent developments of metal-organic frameworks (MOFs) as photocatalysts for CO2 reduction, discussing their advantages and challenges, as well as the main principles, thermodynamics, mechanisms, and mass transfer theory of photocatalytic CO2 reduction. Detailed discussions are presented on synthesis and classifications of MOF-based photocatalysts for increasing the photocatalytic CO2 conversion, with future perspectives suggested to enhance efficiency in an economically and environmentally sustainable manner.

JOURNAL OF CO2 UTILIZATION (2021)

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Article Energy & Fuels

Understanding the interaction between active sites and sorbents during the integrated carbon capture and utilization process

Hongman Sun et al.

Summary: The distance between Ni active sites and CaO sorbents is crucial for the performance of the ICCU process, with closer distances leading to lower CO2 conversion and CH4 selectivity. By increasing the distance through physical mixing, the CO2 conversion and CH4 selectivity can be greatly improved.

FUEL (2021)

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Review Environmental Sciences

A paradigm shift to CO2 sequestration to manage global warming - With the emphasis on developing countries

Siddhartha Shankar Bhattacharyya et al.

Summary: Global land use changes to meet the food demands of a growing population are turning agricultural soils into carbon sources. Effective agricultural management practices are crucial to offset anthropogenic carbon emissions, with carbon sequestration in agriculture being a viable option. Agroforestry is seen as the most promising approach, while strategies like no-tillage are considered less advantageous.

SCIENCE OF THE TOTAL ENVIRONMENT (2021)

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Article Engineering, Chemical

Efficient-and-stable CH4 reforming with integrated CO2 capture and utilization using Li4SiO4 sorbent

Zongze Lv et al.

Summary: CO2 capture and utilization (CCU) is seen as a promising approach to reduce carbon emissions in the short to mid-term, but the instability of high-temperature CO2 sorption/desorption limits its potential. Therefore, developing a new sorbent/catalyst system is crucial for ensuring the high efficiency and long-term operation of CCU.

SEPARATION AND PURIFICATION TECHNOLOGY (2021)

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Article Chemistry, Multidisciplinary

Enhanced Activity of Integrated CO2 Capture and Reduction to CH4 under Pressurized Conditions toward Atmospheric CO2 Utilization

Fumihiko Kosaka et al.

Summary: The study investigated the performance of Ni-based dual-functional catalysts promoted with Na, K, and Ca in capturing and reducing CO2 to CH4, achieving high CO2 conversion and CH4 selectivity. The catalyst showed potential for high CO2 utilization efficiency, even at low concentrations, and under varying conditions such as presence of O2 and atmospheric CO2 levels.

ACS SUSTAINABLE CHEMISTRY & ENGINEERING (2021)

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Article Chemistry, Physical

Bifunctional Ni-Ca based material for integrated CO2 capture and conversion via calcium-looping dry reforming

Jiawei Hu et al.

Summary: The research focuses on the development of a bifunctional Ni-Ca based material to enable isothermal capture and release of CO2, as well as in-situ conversion of CH4 into syngas in a single reactor. The addition of CeO2 helps combat inactive carbon accumulation and activate CO2 and CH4, leading to enhanced syngas production during cyclic CaLDRM. The bifunctional material successfully converts over 40% of CH4 and CO2 under thermodynamically unfavorable conditions.

APPLIED CATALYSIS B-ENVIRONMENTAL (2021)

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Article Engineering, Environmental

Transformation technologies for CO2 utilisation: Current status, challenges and future prospects

Ariane D. N. Kamkeng et al.

Summary: This study reviews the current status and trends of CO2 transformation technologies, identifies the challenges faced by these technologies, and emphasizes the importance of developing improved catalysts and process intensification techniques for successful scale-up.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Engineering, Chemical

Storage Material Effects on the Performance of Ru-Based CO2 Capture and Methanation Dual Functioning Materials

Alessandro Porta et al.

Summary: The study found that combining alkaline and alkaline-earth metal oxides with Ru on an Al2O3 support is effective for capturing and methanating CO2. Ca, Ba, and K as storage materials (SMs) show higher adsorption capacities and CH4 production at lower temperatures. Resilient carbonates are present on Ca- and Ba-based DFMs surfaces after the hydrogenation step.

INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2021)

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Article Chemistry, Physical

Coke-promoted Ni/CaO catal-sorbents in the production of cyclic CO and syngas

Seongbin Jo et al.

Summary: This study proposed a method for ICC process using Ni/CaO catal-sorbents to produce CO and syngas through CO2 capture and CH4 conversion. The research showed that C-Ni/CaO catal-sorbent exhibited excellent performance in both CO2 conversion and CH4 conversion steps, but the coke-promoted Ni/CaO catal-sorbents were not completely regenerated after the fifth cycle.

SUSTAINABLE ENERGY & FUELS (2021)

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Article Engineering, Environmental

Integrated capture and conversion of CO2 into methane using NaNO3/MgO + Ru/Al2O3 as a catalytic sorbent

Sang Jae Park et al.

Summary: Catalytic sorbents were prepared by physically mixing NaNO3/MgO sorbents and Ru/Al2O3 catalysts, and the effectiveness of different preparation methods was evaluated in capturing and converting CO2 to methane. The study indicated that preparing the sorbents with two separate beds led to higher CO2 sorption capacity, while mixing and pelletizing the components decreased the sorption capacity. Investigations into CO2 methanation reaction pathways over different catalysts revealed variations in reaction intermediates and potential reaction mechanisms.

CHEMICAL ENGINEERING JOURNAL (2021)

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Review Chemistry, Multidisciplinary

CO2 Capture at Medium to High Temperature Using Solid Oxide-Based Sorbents: Fundamental Aspects, Mechanistic Insights, and Recent Advances

Matthew T. Dunstan et al.

Summary: Solid CO2 sorbents have been intensively researched for their promising stability and low energy costs compared to liquid amines. By exploring the impact of structure, composition, and morphology, as well as optimization strategies and interdisciplinary advances, a coherent understanding of CO2 absorption mechanisms in solid materials is presented.

CHEMICAL REVIEWS (2021)

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Review Chemistry, Multidisciplinary

Recent Development of Electrocatalytic CO2 Reduction Application to Energy Conversion

Feng Liang et al.

Summary: The worldwide greenhouse gas pollution caused by carbon dioxide (CO2) emissions highlights the importance of strengthening carbon dioxide recycling. Carbon dioxide electroreduction reaction (CRR) is a promising approach to utilize waste CO2, with various types of electrocatalysts playing a critical role in the process.

SMALL (2021)

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Article Multidisciplinary Sciences

The Microalga Chlorella vulgaris as a Natural Bioenergetic System for Effective CO2 Mitigation-New Perspectives against Global Warming

Fanourios Mountourakis et al.

Summary: The research demonstrates that Chlorella vulgaris can tolerate extremely high levels of CO2 and convert it into valuable products through photosynthesis. It highlights the potent CO2 bio-fixation mechanism of Chlorella vulgaris and its potential for direct biological CO2-reducing strategies and other green biotechnological applications.

SYMMETRY-BASEL (2021)

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Article Chemistry, Multidisciplinary

Reticular frameworks and their derived materials for CO2 conversion by thermo-catalysis

Jun Liang et al.

Summary: This review comprehensively summarizes the progress in thermo-catalysis of CO2 conversion by reticular framework-based catalysts, covering the synthesis of various chemicals, characteristics and advantages, reaction classification, and catalyst design, performance, and mechanism. The perspectives for further development of reticular framework-based catalysts for efficient CO2 conversion are also discussed.

ENERGYCHEM (2021)

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Review Green & Sustainable Science & Technology

Sorption-enhanced Steam Methane Reforming for Combined CO2 Capture and Hydrogen Production: A State-of-the-Art Review

Salman Masoudi Soltani et al.

Summary: The paper explores the significant role of hydrogen in the economic recovery of EU countries after COVID-19 and its key role in a fossil fuel-free future. Sustainable hydrogen production requires a shift from current carbon-emitting pathways to capture emissions. A low-carbon SMR technology is discussed, involving carbon capture while producing hydrogen. The paper provides an in-depth review on process advances, catalysts, and the use of AI in this technology, aiming to fill existing gaps in the literature.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2021)

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Article Green & Sustainable Science & Technology

Integrated CO2 capture and utilization with CaO-alone for high purity syngas production

Shuzhuang Sun et al.

Summary: This study demonstrates the use of low-cost and widely used CaO to efficiently adsorb CO2 and convert it in situ into valuable syngas with over 75% conversion rate, which is crucial for achieving carbon neutrality and sustainable future development.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2021)

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Review Green & Sustainable Science & Technology

Recent advances in potassium-based adsorbents for CO2 capture and separation: a review

Yafei Guo et al.

Summary: This review summarizes the recent progress of potassium-based adsorbents in CO2 capture, covering topics such as carbonation pathways, strategies for carbonation enhancement, and kinetics modelling. In addition to applications in flue gas cleaning, potassium-based adsorbents also have potential applications in other fields.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2021)

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Article Green & Sustainable Science & Technology

Study on the effect of NaBr modification on CaO-based sorbent for CO2 capture and SO2 capture

Yongqing Xu et al.

Summary: The calcium looping process is a promising technology for capturing CO2, but the decay of CaO-based sorbent due to sintering and SO2 poisoning is a major obstacle. This study shows that NaBr modification enhances the cyclic CO2 capture capacity of CaO-based sorbents, and the effect of SO2 on this capacity was well studied. The modification not only enhanced SO2 capture capacity, but also improved cyclic CO2 capture capacity, making it a promising strategy for boosting CO2 capture in the calcium looping process.

CARBON CAPTURE SCIENCE & TECHNOLOGY (2021)

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Review Chemistry, Physical

Recent advances in integrated CO2 capture and utilization: a review

Shuzhuang Sun et al.

Summary: CO2 capture and utilization is a promising solution to reduce the impact of CO2, with ICCU showing many advantages over traditional CCU processes, requiring attention to key process parameters and the development and application of dual-functional materials. CaO as an adsorbent in combination with CO2 utilization catalysts shows potential, but considerations such as cost and post-processing requirements are still relevant in industrial applications.

SUSTAINABLE ENERGY & FUELS (2021)

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Article Chemistry, Multidisciplinary

Heterojunction-redox catalysts of FexCoyMg10CaO for high-temperature CO2 capture and in situ conversion in the context of green manufacturing

Bin Shao et al.

Summary: The integration of calcium looping and the reverse-water-gas-shift reaction has successfully realized high-temperature CO2 capture and in situ conversion, offering a promising solution. The heterojunction-redox strategy has effectively addressed CaO sintering issues and improved CO2 conversion efficiency.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Review Chemistry, Physical

Thermocatalytic hydrogenation of CO2 into aromatics by tailor-made catalysts: Recent advancements and perspectives

Yang Wang et al.

Summary: This critical review focuses on the recent advancements in CO2 hydrogenation into high value-added aromatics (CTA), highlighting key factors such as the catalytic component, the acidity distribution of the zeolite, and the proximity effect between different active sites. The strategy involves converting CO2 into CO or methanol on Fe-based active sites or reducible metal oxides, then conducting further chemical reactions on acidic zeolites to synthesize aromatics.

ECOMAT (2021)

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Article Chemistry, Multidisciplinary

2D-Layered Ni-MgO-Al2O3 Nanosheets for Integrated Capture and Methanation of CO2

Zhongjin Zhou et al.

CHEMSUSCHEM (2020)

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K2CO3-Containing Composite Sorbents Based on Thermally Modified Alumina: Synthesis, Properties, and Potential Application in a Direct Air Capture/Methanation Process

Janna V. Veselovskaya et al.

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Effect of CO2 adsorbents on the Ni-based dual-function materials for CO2 capturing and in situ methanation

Kian Hoong Chai et al.

JOURNAL OF THE CHINESE CHEMICAL SOCIETY (2020)

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Direct and highly selective conversion of captured CO2 into methane through integrated carbon capture and utilization over dual functional materials

Hongman Sun et al.

JOURNAL OF CO2 UTILIZATION (2020)

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Article Chemistry, Multidisciplinary

Effect of alkali promoters (Li, Na, K) on the performance of Ru/Al2O3 catalysts for CO2 capture and hydrogenation to methane

Stefano Cimino et al.

JOURNAL OF CO2 UTILIZATION (2020)

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Review Chemistry, Physical

The Role of Alkali and Alkaline Earth Metals in the CO2Methanation Reaction and the Combined Capture and Methanation of CO2

Anastasios Tsiotsias et al.

CATALYSTS (2020)

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Review Engineering, Chemical

Dual-Function Materials for CO2 Capture and Conversion: A Review

Ibeh S. Omodolor et al.

INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2020)

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Article Chemistry, Multidisciplinary

CO2-SR Cyclic Technology: CO2 Storage and in situ Regeneration with CH4 over a new dual function NiBa unsupported catalyst

S. Molina-Ramirez et al.

JOURNAL OF CO2 UTILIZATION (2020)

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Article Chemistry, Physical

Mechanistic assessment of dual function materials, composed of Ru-Ni, Na2O/Al2O3 and Pt-Ni, Na2O/Al2O3, for CO2 capture and methanation by in-situ DRIFTS

Laura Proano et al.

APPLIED SURFACE SCIENCE (2020)

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