Biosensing Properties of Zinc Oxide Nanoribbons Toward Creatine: A First-Principles Study

Abstract: In this paper, a nanostructured solid-state biosensor is proposed for the non-enzymatic detection of creatine as a possible stimulus for skeletal/cardiac muscle hypertrophy. Phonon dispersion curve reveals that twodimensional honeycomb-like ZnO nanostructure applied here has true local minima. Sensing properties of the device toward creatine are theoretically studied by employing first-principles density functional theory associated with non-equilibrium Green's function formalism. For this purpose, a two-probe… Show more

“…2 It is the electromechanical coupling where the mechanical energy is converted to electrical energy that allows piezoelectric energy harvesting. [3][4][5] Using this principle, energy is scavenged from the environment through nanogenerator. The growth of the metal oxides on the flexible substrates is being 6,7 exploited since it requires a conduction adhesive layer before the growth.…”

Low-cost Energy Harvesting using ZnO Nanorods on Paper Substrate

“…2 It is the electromechanical coupling where the mechanical energy is converted to electrical energy that allows piezoelectric energy harvesting. [3][4][5] Using this principle, energy is scavenged from the environment through nanogenerator. The growth of the metal oxides on the flexible substrates is being 6,7 exploited since it requires a conduction adhesive layer before the growth.…”

Low-cost Energy Harvesting using ZnO Nanorods on Paper Substrate

A 3D-printed millifluidic device for triboelectricity-driven pH sensing based on ZnO nanosheets with super-Nernstian response

Design and simulation of a millifluidic device for differential detection of SARS-CoV-2 and H1N1 based on triboelectricity