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Nanomaterials for Carbon Dioxide Capture and Conversion Technologies. Micro and Nano Technologies

  • Book

  • October 2022
  • Elsevier Science and Technology
  • ID: 5527341

Nanomaterials for Carbon Dioxide Capture and Conversion Technologies focuses on the applications of nanomaterials for CO2 capture and conversion. The book highlights the need for CO2 mitigation, followed by the basic principles for CO2 capture and conversion, using different nanomaterials, while also discussing and highlighting challenges and perspectives.

Abundant CO2 emissions from industries and the transportation sector are a threat to the planet due to overwhelming concerns regarding CO2-induced climate change. Nanomaterials are being widely investigated for CO2 capture and conversion processes. Nano absorbents, adsorbents and nanomembranes for CO2 capture, nano catalysts for catalytic CO2 conversion, and chemical fixation of CO2 are some of the broader applications of nanomaterials for CO2 mitigation.

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Table of Contents

1. Global CO2 emissions and their impact
2. Impact of presence of CO2 in natural gas streams
3. CO2 capture and conversion technologies
4. Synthesis of nanomaterials and their characterization techniques
5. Nanomaterials for CO2-sensing applications
6. Nano-sorbents for CO2 removal
7. Nanofluids for CO2 removal
8. Waste and biomass-based nanomaterials for CO2 removal
9. Graphene-based nanomaterials for capture and conversion
10. Carbon nanotubes for CO2 capture and conversion
11. Metallic organic frameworks embedded with nanoparticles for CO2 capture and conversion
12. Nanosized zeolites for CO2 capture and conversion
13. Mesoporous silica nanoparticles for CO2 mitigation
14. Titanium-based nanomaterials for CO2 reduction
15. Copper-based nanomaterials for CO2 reduction
16. Amine-functionalized nanomaterials for CO2 mitigation
17. Ionic liquid-functionalized nanomaterials for CO2
18. Perovskite-based nanomaterials for CO2 removal
19. Nanomaterial-based membranes for CO2 removal
20. Future challenges and perspectives for the use of nanomaterials for CO2 mitigation technologies

Authors

Shaukat Ali Mazari Assistant Professor, Department of Chemical Engineering, Dawood University of Engineering and Technology, Karachi, Pakistan. Shaukat Ali Mazari is Assistant Professor in the Department of Chemical Engineering, Dawood University, Karachi, Pakistan. His research interests are purification and separation processes, the evaluation of amines stability for CO2 capture, biofuels from biomass, electrochemical CO2 reduction and preparation and characterization of electrodes, etc. Nabisab Mujawar Mubarak Associate, Department of Chemical Engineering, Faculty of Engineering and Science, Curtin University, Sarawak, Malaysia. Dr. Mubarak Mujawar is an Associate Professor in the Department of Chemical Engineering at Curtin University, Malaysia. His areas of interest include carbon nanomaterials, synthesis, magnetic biochar production using microwaves, and wastewater treatment using advanced materials. Dr. Mubarak has published journal papers, conference proceedings, book chapters, and patent filings. He currently serves as an editorial board member for Scientific Report (Nature), and as a scientific reviewer in numerous journals in the areas of chemical engineering and nanotechnology. He was named as an outstanding scientist for publications and citations by I Proclaim Malaysia in 2017. Dr. Mubarak is fellow (FIEAust) and a chartered chemical engineer (CPEng, MIEAust) with Engineers Australia, and a chartered chemical engineer (CEng MIchemE IchemE, UK) with the Institution of Chemical Engineers, UK. Manoj Tripathi Assistant Professor, Department of Physics, Material Science and Engineering, Jaypee Institute of Information Technology, Noida, India. Manoj Tripathi is Assistant Professor in the Department of Physics & Material Science & Engineering at Jaypee Institute of Information Technology, Noida, India. His research interests are renewable energy, energy storage materials, biomass-based studies, polymer composites, and thermophysical properties.