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Reduce greenhouse gas emissions: Advance the field of MOMs toward the construction of made-to-order and cost effective MOMs that can sequester large amounts of CO2 Essay Example

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Reduce greenhouse gas emissions: Advance the field of MOMs toward the construction of made-to-order and cost effective MOMs that can sequester large amounts of CO2

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Results in components which are strong and the formation of the pores occurs during the elimination process of the guest molecules, which come from the utilised solvents. This makes the compounds become suitable for storage of industrial gases like hydrogen and carbon dioxide. This technology can be increasingly effective in the designing and manufacturing of cost-effective materials which can be utilised in the purification of carbon. This remains a fundamental aspect in the process of reducing greenhouse gases during the manufacturing process.The development of modern technologies for the advancement of development process of MOFs remains one of the fundamental focus of the group. Within the context of this attribute, these materials remain essential in the storage of carbon dioxide. The storage of the produced carbon within the manufacturing industry could be essential in enhancing the reduction of the carbon emitted during the process. Gases which have detrimental effects on the environment like carbon dioxide can be effectively managed through the utilisation of MOFs(Herm et al. The absorption characteristics of the MOFs remains an essential attribute which can be effectively utilised in the development of low-cost devices for the absorption of carbon, produced during the manufacturing process.Increased research on the structures of the materials has been continuously undertaken by the group in seeking to develop and enhance the understanding of the chemical structure of these materials. The understanding of the metal-organic frameworks can enable the development of an effective management process aimed at reducing environmental pollution resulting from carbon emissions(Dietzel, Besikiotis, and Blom, p7365). The research activities for the group includes development of MOMs and generally porous materials from adsorption and membrane based applications. These materials have been observed to be relatively effective in the storage of carbon dioxide and hydrogen. The capability for storing these gases becomes an essential factor for consideration within the industrial manufacturing of different products.The research group has undertaken increased research in the structural constitution of the MOFs, which has been essential in the development of different MOMs. The different characteristics of these materials have been effectively understood in seeking to establish the most effective MOM in the absorption, separation and storage of carbon

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D’Alessandro, Deanna M., Berend Smit, and Jeffrey R. Long. “Carbon Dioxide Capture: Prospects for New Materials.” Angewandte Chemie International Edition 49.35 (2010): 6058–6082. Print.

Dietzel, Pascal DC, Vasileios Besikiotis, and Richard Blom. “Application of Metal–organic Frameworks with Coordinatively Unsaturated Metal Sites in Storage and Separation of Methane and Carbon Dioxide.” Journal of Materials Chemistry 19.39 (2009): 7362–7370. Print.

Herm, Zoey R. et al. “Metal− Organic Frameworks as Adsorbents for Hydrogen Purification and Precombustion Carbon Dioxide Capture.” Journal of the American Chemical Society 133.15 (2011): 5664–5667. Print.

James, Stuart L. “Metal-Organic Frameworks.” Chemical Society Reviews 32.5 (2003): 276–288. Print.

Li, Jian-Rong et al. “Carbon Dioxide Capture-Related Gas Adsorption and Separation in Metal-Organic Frameworks.” Coordination Chemistry Reviews 255.15 (2011): 1791–1823. Print.

Mason, Jarad A. et al. “Evaluating Metal–organic Frameworks for Post-Combustion Carbon Dioxide Capture via Temperature Swing Adsorption.” Energy & Environmental Science 4.8 (2011): 3030–3040. Print.

Rowsell, Jesse LC, and Omar M. Yaghi. “Metal–organic Frameworks: A New Class of Porous Materials.” Microporous and Mesoporous Materials 73.1 (2004): 3–14. Print.

Sumida, Kenji et al. “Carbon Dioxide Capture in Metal–organic Frameworks.” Chemical reviews 112.2 (2011): 724–781. Print.

Yazaydın, A. Özgür et al. “Screening of Metal− Organic Frameworks for Carbon Dioxide Capture from Flue Gas Using a Combined Experimental and Modeling Approach.” Journal of the American Chemical Society 131.51 (2009): 18198–18199. Print.

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preview essay on Reduce greenhouse gas emissions: Advance the field of MOMs toward the construction of made-to-order and cost effective MOMs that can sequester large amounts of CO2
  • Pages: 4 (1000 words)
  • Document Type: Essay
  • Subject: Chemistry
  • Level: Undergraduate
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