ZnO Nanowires with Increasing Aspect Ratios for Room-Temperature NO₂ Gas Sensing

Abstract: The oriented design and controllable preparation of sensing materials are extremely important and meaningful attributes that not only contribute to the realization of desirable gas-sensing properties but also facilitate the validation of the sensing mechanism. Because of the spatial effect derived from micelle assemblies formed by surfactant molecules under certain circumstances, radial growth of ZnO crystals is successfully suppressed in this work, which leads to the formation of ZnO nanowires with a larger a… Show more

“…It has been found that wide-bandgap nanoparticles are highly sensitive and efficient gas-sensing materials. Although the surfaces of bulk materials are almost entirely depleted of carriers, nanomaterials demonstrate a greater change in conductance when exposed to gas than bulk-size grains because more carriers are activated at the surface from their trapped states to the conduction band [25][26][27][28][29]. Metal oxide nanoparticles' surface absorbs the molecules of a reducing gas, lowering the potential barrier by moving electrons into the conduction band and lowering electrical resistance [30][31][32].…”

Investigation of Ethanol gas sensing properties of pristine and Al doped ZnO nanoparticles synthesized by Sol-gel method

“…It has been found that wide-bandgap nanoparticles are highly sensitive and efficient gas-sensing materials. Although the surfaces of bulk materials are almost entirely depleted of carriers, nanomaterials demonstrate a greater change in conductance when exposed to gas than bulk-size grains because more carriers are activated at the surface from their trapped states to the conduction band [25][26][27][28][29]. Metal oxide nanoparticles' surface absorbs the molecules of a reducing gas, lowering the potential barrier by moving electrons into the conduction band and lowering electrical resistance [30][31][32].…”

Investigation of Ethanol gas sensing properties of pristine and Al doped ZnO nanoparticles synthesized by Sol-gel method

Tapered cross-linked ZnO nanowire bundle arrays on three-dimensional graphene foam for highly sensitive electrochemical detection of levodopa

SnO2 grains with abundant surface oxygen vacancies for the Ultra-sensitive detection of NO2 at low temperature