Large-scale preparation of crinkly NiO layers as anode materials for lithium-ion batteries

“…Nickel (II) oxide (NiO) and nickel (II) composites in meticulously have attracted substantial interest because of a broad range of applications, namely magnetic materials [17], photovoltaic [18] Li ion batteries [19], catalysis [20], gas sensors [21], p-type transparent conducting films, infrared detectors, storage oxygen materials, fuels cells, supercapacitors, ferromagnetic oxides, gas sensors and luminescence materials, photochromic materials, [22], electrochromic windows [23], biomedicine, desalination, waste water treatment, energy related fields, catalytic reduction, adsorption, photocatalytic reduction, degradation, magnetic material, reinforcing agents in composites [24,25]. Different methods have been reported for the synthesis of NiO, such as sol-gel [26], microemulsion [27], hydrothermal [28], co-precipitation, precipitation [29], sonochemical [15], microwave [30], metal-organic chemical vapor deposition (MOCVD), sputtering method [30], pulsed laser deposition (PLD), infrared irradiation, thermal decomposition, thermal evaporation and condensation [29,30].…”

Mini Review: Recent Green Advances on the Preparation of V₂O₅, ZnO, and NiO Nanosheets

“…Nickel (II) oxide (NiO) and nickel (II) composites in meticulously have attracted substantial interest because of a broad range of applications, namely magnetic materials [17], photovoltaic [18] Li ion batteries [19], catalysis [20], gas sensors [21], p-type transparent conducting films, infrared detectors, storage oxygen materials, fuels cells, supercapacitors, ferromagnetic oxides, gas sensors and luminescence materials, photochromic materials, [22], electrochromic windows [23], biomedicine, desalination, waste water treatment, energy related fields, catalytic reduction, adsorption, photocatalytic reduction, degradation, magnetic material, reinforcing agents in composites [24,25]. Different methods have been reported for the synthesis of NiO, such as sol-gel [26], microemulsion [27], hydrothermal [28], co-precipitation, precipitation [29], sonochemical [15], microwave [30], metal-organic chemical vapor deposition (MOCVD), sputtering method [30], pulsed laser deposition (PLD), infrared irradiation, thermal decomposition, thermal evaporation and condensation [29,30].…”

Mini Review: Recent Green Advances on the Preparation of V₂O₅, ZnO, and NiO Nanosheets

“…In this study, a typical p-type material (NiO) was used as the substrate for the TEA gas-sensing material, and the gas-sensing properties and mechanisms were discussed. NiO as an important p-type semiconductor material oxide with wide band gap energy ( E g = 3.6–4.0 eV) has received considerable attention in various fields such as catalysts, lithium-ion batteries, magnetic materials, gas sensors, etc. Many previous works have proven that NiO-based gas sensors show good gas-sensitivity response to various types of toxic gases. , Lin et al reported that uniform hexagonal NiO nanosheets were prepared by a hydrothermal method, and it shows excellent response to 50 ppm of several reducing gases (ethanol, CO, H 2 S, CH 4 , and NH 3 ) .…”

Graphitic Carbon Nitride Nanosheets Decorated Flower-like NiO Composites for High-Performance Triethylamine Detection

The 3D crystal morphologies of NiO gas sensor and constantly improved sensing properties to ethanol