Zhou, Ming; Yao, Yu; Han, Yutong; Xie, Lili; Zhao, Xueling; Barsan, Nicolae; Zhu, Zhigang published the artcile< Ultrasensitive gas sensor based on nanocube In2O3-CNH composite at low operating temperature>, Product Details of Cl3H8InO4, the main research area is Indium oxide carbon nanohorn composite ultrasensitive gas sensor.
A facile solvothermal route prepared In2O3/CNH nanocomposites with different CNH concentrations All nanocomposites’ structural and morphol. properties were investigated by XRD, FESEM, TEM, XPS, and BET. The H2S sensing performance of the sensors based on them was tested, operated between 40°C and 300°C. The results showed that the optimal composition is In2O3/CNH (2 wt%) with a sensor signal to 2 ppm H2S, at an operating temperature of 70°C, of almost 3000. The sensors demonstrated excellent selectivity, low impact of humidity and good reproducibility and stability. The superior sensor performance is related to the p-n junction formation between the CNH and In2O3, which determines the increase of the surface band bending and the sensor response. The gas sensing mechanism is thoroughly discussed, and the In2O3/CNH nanocomposite sensor can be considered an ideal candidate for high-performance detection of H2S with low-power consumption.
Sensors and Actuators, B: Chemical published new progress about Band structure. 22519-64-8 belongs to class chlorides-buliding-blocks, and the molecular formula is Cl3H8InO4, Product Details of Cl3H8InO4.
Referemce:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics