Non-linear vibration behavior of thin multilayer diaphragms

“…Recently, special attention has been devoted to the morphology of ZnO having various nanostructures [7,8]. Thermal stability, irradiation resistance and flexibility to form different nanostructures are the advantages that expedite its potential wide applications in photodetectors [9], surface acoustic wave devices [10], ultraviolet nanolaser [11], varistors [12], solar cells [13], gas sensors [14], biosensors [15], ceramics [16], field emission [17], and nanogenerator [18].…”

Photoluminescence and optical properties of nanostructure Ni doped ZnO thin films prepared by sol–gel spin coating technique

“…Recently, special attention has been devoted to the morphology of ZnO having various nanostructures [7,8]. Thermal stability, irradiation resistance and flexibility to form different nanostructures are the advantages that expedite its potential wide applications in photodetectors [9], surface acoustic wave devices [10], ultraviolet nanolaser [11], varistors [12], solar cells [13], gas sensors [14], biosensors [15], ceramics [16], field emission [17], and nanogenerator [18].…”

Photoluminescence and optical properties of nanostructure Ni doped ZnO thin films prepared by sol–gel spin coating technique

“…Because of its high piezoelectricity and electromechanical coupling properties, zinc oxide has been applied to many practical devices such as varistors, ultrasonic transducers, surface-acoustic-wave (SAW) devices, and gas sensors. 2,3 Zinc oxide is a typical material controlled by grain boundaries. Of course, it is expected that the properties of zinc oxide will be modified because of many defects at grain boundaries as nanostructured materials contain large grain boundary volumes.…”

Preparation and Electric Properties of Dense Nanocrystalline Zinc Oxide Ceramics

“…Recently, special attention has been devoted to the morphology, as ZnO can form different nanostructures [10]. Thermal stability, irradiation resistance, and flexibility to form different nanostructures are the advantages that expedite its potential wide applications in photodetectors [11][12][13], surface acoustic wave devices [14], ultraviolet nanolaser [15], varistors [16], solar cells [17], gas sensors [18], biosensors [19], ceramics [20,21], field emission [22], and nanogenerator [23]. Cyt c plays an important role in the biological respiratory chain, whose function is to receive electrons from Cyt c reductase and deliver them to Cyt c oxidase.…”

Direct Electron Transfer of Cytochrome c on ZnO Nanoparticles Modified Carbon Paste Electrode