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A copper oxide nanorod derived metal-organic framework nanocomposite: a robust and sensitive electrocatalyst for the detection of furazolidone
An investigation into the effect of polyvinylpyrrolidone on the size and distribution of nickel catalyst particles for controlling CNTs' morphology and growth mechanisms in fabricated hybrid CF-CNT nanocomposite
An investigation into the effect of polyvinylpyrrolidone on the size and distribution of nickel catalyst particles for controlling CNTs' morphology and growth mechanisms in fabricated hybrid CF-CNT nanocomposite
An investigation into the effect of polyvinylpyrrolidone on the size and distribution of nickel catalyst particles for controlling CNTs' morphology and growth mechanisms in fabricated hybrid CF-CNT nanocomposite
Single-switch coupled-inductors-based high step-up converter with reduced voltage stress
Electrochemical co-deposition of cobalt and graphene, produced from recycled polypropylene, on TiO2 nanotube as a new catalyst for photoelectrochemical water splitting
Electrochemical co-deposition of cobalt and graphene, produced from recycled polypropylene, on TiO2 nanotube as a new catalyst for photoelectrochemical water splitting
Fully soft switched high step?up/down bidirectional buck/boost converter with reduced switch voltage stress
Fully soft switched high step?up/down bidirectional buck/boost converter with reduced switch voltage stress
Mussel-inspired lignin decorated cellulose nanocomposite tough organohydrogel sensor with conductive, transparent, strain-sensitive and durable properties
Developing a system dynamic plus framework for Water-Land-Society Nexus modeling within urban socio-hydrologic systems
Developing a system dynamic plus framework for Water-Land-Society Nexus modeling within urban socio-hydrologic systems
Developing a system dynamic plus framework for Water-Land-Society Nexus modeling within urban socio-hydrologic systems
Novel mesoporous cupric oxide-based biomaterial: An efficient nanocatalyst toward catalytic reduction of emerging contaminants in the wastewater
Novel mesoporous cupric oxide-based biomaterial: An efficient nanocatalyst toward catalytic reduction of emerging contaminants in the wastewater