![]() Appl Surf Sci 597:142608Īhsan MA, Deemer E, Fernandez-Delgado O, Wang H, Curry ML, El-Gendy AA, Noveron JC (2019) Fe nanoparticles encapsulated in MOF-derived carbon for the reduction of 4-nitrophenol and methyl orange in water. ACS Sustain Chem Eng 6:11058–11062Īhsan MA, Jabbari V, El-Gendy AA, Curry ML, Noveron JC (2019) Ultrafast catalytic reduction of environmental pollutants in water via MOF-derived magnetic Ni and Cu nanoparticles encapsulated in porous carbon. J Mater Chem A 6:21516–21523įranco A, Cebrián-García S, Rodríguez-Padrón D, Puente-Santiago AR, Muñoz-Batista MJ, Caballero A, Balu AM, Romero AA, Luque R (2018) Encapsulated laccases as effective electrocatalysts for oxygen reduction reactions. Ĭova CM, Zuliani A, Santiago ARP, Caballero A, Muñoz-Batista MJ, Luque R (2018) Microwave-assisted preparation of Ag/Ag 2S carbon hybrid structures from pig bristles as efficient HER catalysts. Īhsan MA, Jabbari V, Imam MA, Castro E, Kim H, Curry ML, Valles-Rosales DJ, Noveron JC (2020) Nanoscale nickel metal organic framework decorated over graphene oxide and carbon nanotubes for water remediation. ![]() This review performs a wide literature analysis to present the main and latest advances in the optimal design and characterization of carbon nanotubes with biomedical applications, and their capacities in different areas of preclinical research.Īhsan MA, Jabbari V, Islam MT, Turley RS, Dominguez N, Kim H, Castro E, Hernandez-Viezcas JA, Curry ML, Lopez J, Gardea-Torresdey JL, Noveron JC (2019) Sustainable synthesis and remarkable adsorption capacity of MOF/graphene oxide and MOF/CNT based hybrid nanocomposites for the removal of Bisphenol A from water. ![]() Nevertheless, despite their beneficial contributions, some major concerns need to be solved to boost the clinical development of CNTs, including poor solubility in water, low biodegradability and dispersivity, and toxicity problems associated with CNTs’ interaction with biomolecules in tissues and organs, including the possible effects in the proteome and genome. Besides, in the new promising field of artificial biomaterial generation, nanotubes are studied as the load in nanocomposite materials, improving their mechanical and electrical properties, or even for direct use as scaffolds in body tissue manufacturing. CNTs have an excellent ability to penetrate cell membranes, and the sp 2 hybridization of all carbons enables their functionalization with almost every biomolecule or compound, allowing them to target cells and deliver drugs under the appropriate environmental stimuli. Among them, carbon nanotubes (CNTs) have emerged as a powerful tool to improve biomedical approaches in the management of numerous diseases. The use of nanoparticles entails a great potential in these fields mainly because of the high ratio of surface atoms that modify the physicochemical properties and increases the chemical reactivity. ![]() Nowadays, biomaterials have become a crucial element in numerous biomedical, preclinical, and clinical applications. ![]()
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