Biological MOFs (bio-MOFs) for energy applications
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Elsevier
Reference91 articles.
1. Carbon dioxide capture: prospects for new materials;D'Alessandro;Angew. Chem. Int. Ed.,2010
2. Carbon capture and storage (CCS): the way forward;Bui;Energy Environ. Sci.,2018
3. Renewable energy cooperatives: a review of demonstrated impacts and limitations;Tarhan;J. Entrepren. Organ. Div.,2015
4. Detecting greenhouse-gas-induced climate change with an optimal fingerprint method;Hegerl;J. Clim.,1996
5. Shaping the future of fuel: monolithic metal-organic frameworks for high-density gas storage;Connolly;J. Am. Chem. Soc.,2020
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1. Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives;Frontiers in Materials;2023-06-13
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