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Crystalline structure controlled of In2O3 sensing platforms for sensitive H2S performance at low temperature

SENSORS AND ACTUATORS B-CHEMICAL [2024]
Zhidong Jin, Yue Mou, Jinbo Zhao, Chuanzhi Chen, Huan Zhou, Nan Xiang, Fenglong Wang, Zhou Wang, Jiurong Liu, Lili Wu
ABSTRACT

Regulation based on the crystalline structure modulations is capable of optimizing the band gap and chemisorbed oxygen components thus adjusting the gas sensing characteristics of sensing materials. Herein, In 2 O 3 hierarchical-assembled microspheres with diverse crystalline structures were synthesized via a simple hydrothermal method combined with calcinating procedure under different temperatures. The gas sensor based on rhombohedral In 2 O 3 (rh-In 2 O 3 ) microspheres assembled by pine needle shaped nanorods annealed at 350 ℃ (350-In 2 O 3 ) exhibited superior H 2 S sensing performances at relative low operating temperature of 100 ℃ with low detection limit (50 ppb) and optimized stability compared with cubic In 2 O 3 (c-In 2 O 3 ). Notably, H 2 S sensing characteristics of In 2 O 3 samples with different crystalline structures certificated that crystal structures can dominate the H 2 S sensing reactions with different mechanisms. This work enlightened a novel prospect for designing rh-In 2 O 3 based sensors and provides an innovative pathway for analyzing the feasible H 2 S sensing mechanisms.

MATERIALS

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