New carbazole-based conjugated frameworks for carbon dioxide capture and water purification: Insights on the adsorptive sites' chemistry

Abdelnaby, Mahmoud M.; Ahmed, Hossam M.; Alloush, Ahmed M.; Zeama, Mostafa; Habib, Mohamed A.; Asmaly, Hamza; Saleh, Tawfik A.

doi:10.1016/j.micromeso.2022.112427

Microporous and Mesoporous Materials

2023

DOI: 10.1016/j.micromeso.2022.112427

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New carbazole-based conjugated frameworks for carbon dioxide capture and water purification: Insights on the adsorptive sites' chemistry

Mahmoud M. Abdelnaby

Hossam M. Ahmed

Ahmed M. Alloush

et al.

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Cited by 3 publications

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Advancements and Challenges in Adsorption‐Based Carbon Capture Technology: From Fundamentals to Deployment

Zentou,

Aliyu,

Abdalla

et al. 2024

The Chemical Record

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Carbon dioxide (CO2) adsorption on solid sorbents represents a promising technology for separating carbon from different sources and mitigating anthropogenic emissions. The complete integration of carbon capture technologies in various industrial sectors will be crucial for a sustainable, low‐carbon future. Despite developing new sorbents, a comprehensive strategy is essential to realize the full potential and widespread adoption of CO2 capture technologies, including different engineering aspects. This study discusses the pathway for deploying adsorption‐based carbon capture technology in fundamental material science aspects, thermo‐physical properties behavior at the molecular level, and industrial pilot scale demonstrations. When integrated with process simulation and economic evaluations, these techniques are instrumental in enhancing the efficiency and cost‐effectiveness of the capturing processes. While advancements in adsorption‐based carbon capture technologies have been notable, their deployment still encounters significant hurdles, including technical, economic, and environmental challenges. Leveraging hybrid systems, renewable energy integration, and the strategic application of emerging machine learning techniques appear promising to address global warming effectively and will consequently be discussed in this investigation.

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Advancements and Challenges in Adsorption‐Based Carbon Capture Technology: From Fundamentals to Deployment

Zentou,

Aliyu,

Abdalla

et al. 2024

The Chemical Record

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Construction of dual-hydrophilic metal-organic framework with hierarchical porous structure for efficient glycopeptide enrichment

Lan

Luo

et al. 2023

Talanta

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Advances and Applications of Carbon Capture, Utilization, and Storage in Civil Engineering: A Comprehensive Review

Vijayan,

Gopalaswamy,

Sivasuriyan

et al. 2024

Energies

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This paper thoroughly examines the latest developments and diverse applications of Carbon Capture, Utilization, and Storage (CCUS) in civil engineering. It provides a critical analysis of the technology’s potential to mitigate the effects of climate change. Initially, a comprehensive outline of CCUS technologies is presented, emphasising their vital function in carbon dioxide (CO2) emission capture, conversion, and sequestration. Subsequent sections provide an in-depth analysis of carbon capture technologies, utilisation processes, and storage solutions. These serve as the foundation for an architectural framework that facilitates the design and integration of efficient systems. Significant attention is given to the inventive application of CCUS in the building and construction industry. Notable examples of such applications include using carbon (C) in cement and promoting sustainable cement production. Economic analyses and financing mechanisms are reviewed to assess the commercial feasibility and scalability of CCUS projects. In addition, this review examines the technological advances and innovations that have occurred, providing insight into the potential future course of CCUS progress. A comprehensive analysis of the environmental and regulatory environments is conducted to evaluate the feasibility and compliance with the policies of CCUS technology deployment. Case studies from the real world are provided to illustrate effectiveness and practical applications. It concludes by emphasising the importance of continued research, policy support, and innovation in developing CCUS technologies as a fundamental component of sustainable civil engineering practices. A tenacious stride toward carbon neutrality is underscored.

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New carbazole-based conjugated frameworks for carbon dioxide capture and water purification: Insights on the adsorptive sites' chemistry

Cited by 3 publications

References 28 publications

Advancements and Challenges in Adsorption‐Based Carbon Capture Technology: From Fundamentals to Deployment

Advancements and Challenges in Adsorption‐Based Carbon Capture Technology: From Fundamentals to Deployment

Construction of dual-hydrophilic metal-organic framework with hierarchical porous structure for efficient glycopeptide enrichment

Advances and Applications of Carbon Capture, Utilization, and Storage in Civil Engineering: A Comprehensive Review

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