Fabrication of Nanometer-Sized Nickel-Based Metal Organic Frameworks on Carbon Nanotubes for Electro-Catalytic Oxidation of Urea and Arsenic Removal

Abstract: Even though metal organic frameworks (MOFs) have rapidly emerged as useful materials in many applications, their inherent low conductivity necessitate hybridizing them with conductive carbon nanostructures like graphene or carbon nanotubes (CNTs) or carbon black especially in energy storage and energy generation applications like batteries, super capacitors, and electro-catalysts in oxygen reduction reaction (ORR). However, to date the synthesis of MOF/CNT is carried out by mixing pre-synthesized MOFs with oxi… Show more

“…The LSV curves of Ni-MOF@rGO and NiO@rGO plotted in Figure 3b show that the highest urea oxidation current observed in Ni-MOF@rGO electrocatalysts was more than double that of NiO@rGO. This can be attributed to the unique electronic structure of nickel moieties in the OH-Ni-OH configuration, which deprotonates a surface hydroxide group, forming the electroactive Ni 3+ species that then oxidizes urea [54]. Additionally, the onset potential of Ni-MOF@rGO for urea oxidation was also substantially lower than that of NiO@rGO, implying that our newly developed Ni-MOF@rGO was a more energy-efficient electrocatalyst for urea oxidation reactions compared to traditional nickel oxide-based electrocatalysts.…”

Graphene Oxide Facilitates Transformation of Waste PET into MOF Nanorods in Ionic Liquids

“…The LSV curves of Ni-MOF@rGO and NiO@rGO plotted in Figure 3b show that the highest urea oxidation current observed in Ni-MOF@rGO electrocatalysts was more than double that of NiO@rGO. This can be attributed to the unique electronic structure of nickel moieties in the OH-Ni-OH configuration, which deprotonates a surface hydroxide group, forming the electroactive Ni 3+ species that then oxidizes urea [54]. Additionally, the onset potential of Ni-MOF@rGO for urea oxidation was also substantially lower than that of NiO@rGO, implying that our newly developed Ni-MOF@rGO was a more energy-efficient electrocatalyst for urea oxidation reactions compared to traditional nickel oxide-based electrocatalysts.…”

Graphene Oxide Facilitates Transformation of Waste PET into MOF Nanorods in Ionic Liquids

“…31,32 Among conductive carbon materials, carbon nanotubes (CNTs) are classical one-dimen-sional materials, which can be assembled with MOFs to obtain MOF/CNT nanocomposites. [33][34][35][36][37][38] By comparing with individual MOFs and CNTs, the MOF/CNT nanocomposites can effectively combine their advantages to enhance the aptasensing performance toward trace analytes.…”

An electrochemical impedimetric platform formed by a CNT@UiO-66 nanocomposite for quantitative analysis of oxytetracycline

Applications of waste polyethylene terephthalate (PET) based nanostructured materials: A review