Simultaneously-Engineered Composition and Spatial Position of Metal/Metal-Oxide Nanowires for Hydrogen Sensing Applications

Abstract: The application of metal and metal-oxide nanowires in functional electronic nanodevices requires the precise control of the composition and surface alignment of the nanowires. Herein, a facile route for fabricating highly ordered Pt, In2O3, and Pt/In2O3 hybrid nanowire arrays from their acid/salt precursors by nanoscale solution printing is reported. The resulting nanowire arrays are continuous and periodic with sub-100 nm dimensions and aligned in parallel on a silicon substrate. With the prepared metal/metal… Show more

“…Artificial electronic skin (e‐skin) with a similar function to human skin can monitor various environmental stimuli, such as pressure and temperature, while enabling users to interact with real and cyber spaces simultaneously. It exhibits tremendous potential applications in the fields of health monitoring, disease diagnosis, the Internet of Things (IoT), and so on 1–3 . Up to now, the piezoresistive, 4,5 piezoelectric, 6–10 triboelectric, 11,12 capacitive 13,14 sensors have been utilized for pressure detection.…”

“…It exhibits tremendous potential applications in the fields of health monitoring, disease diagnosis, the Internet of Things (IoT), and so on. [1][2][3] Up to now, the piezoresistive, 4,5 piezoelectric, [6][7][8][9][10] triboelectric, 11,12 capacitive 13,14 sensors have been utilized for pressure detection. Additionally, a variety of sensors based on thermal resistance, 15,16 thermistor, 17,18 and thermoelectric 19,20 mechanisms have been developed for temperature detection.…”

Self‐powered sensor based on compressible ionic gel electrolyte for simultaneous determination of temperature and pressure

“…Artificial electronic skin (e‐skin) with a similar function to human skin can monitor various environmental stimuli, such as pressure and temperature, while enabling users to interact with real and cyber spaces simultaneously. It exhibits tremendous potential applications in the fields of health monitoring, disease diagnosis, the Internet of Things (IoT), and so on 1–3 . Up to now, the piezoresistive, 4,5 piezoelectric, 6–10 triboelectric, 11,12 capacitive 13,14 sensors have been utilized for pressure detection.…”

“…It exhibits tremendous potential applications in the fields of health monitoring, disease diagnosis, the Internet of Things (IoT), and so on. [1][2][3] Up to now, the piezoresistive, 4,5 piezoelectric, [6][7][8][9][10] triboelectric, 11,12 capacitive 13,14 sensors have been utilized for pressure detection. Additionally, a variety of sensors based on thermal resistance, 15,16 thermistor, 17,18 and thermoelectric 19,20 mechanisms have been developed for temperature detection.…”

Self‐powered sensor based on compressible ionic gel electrolyte for simultaneous determination of temperature and pressure

Nonlinear Optical Properties of Metal Oxide Nanostructures

Preparation of Pt-modified In2O3 nanobundles with enhanced formaldehyde gas sensing performance