Rare earth element-doped porous In2O3 nanosheets for enhanced gas-sensing performance

Rare earth (La, Pr, Sm, Ce and Yb)-doped porous In 2 O 3 nanosheets are prepared by a solvothermal method. The effect of rare earth elements on the structure, morphologies and gas-sensing performance of In 2 O 3 nanosheets is systematically investigated. The mixed phase composed of c-In 2 O 3 and rh...

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Published in	Rare metals Vol. 40; no. 6; pp. 1662 - 1668
Main Authors	Zhang, Wen-Hui, Ding, Su-Jun, Zhang, Qing-Song, Yi, Hui, Liu, Zi-Xiang, Shi, Meng-Li, Guan, Rong-Feng, Yue, Lu
Format	Journal Article
Language	English
Published	Beijing Nonferrous Metals Society of China 01.06.2021 Springer Nature B.V
Subjects	Acetone Biomaterials Cerium Chemistry and Materials Science Doping Energy Gas sensors Indium oxides Lanthanum Materials Engineering Materials Science Metallic Materials Morphology Nanoscale Science and Technology Nanosheets Operating temperature Original Article Physical Chemistry Praseodymium Rare earth elements Recovery time Selectivity Trace elements Gas sensor Rare earth elements In Doping O Acetone
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Abstract	Rare earth (La, Pr, Sm, Ce and Yb)-doped porous In 2 O 3 nanosheets are prepared by a solvothermal method. The effect of rare earth elements on the structure, morphologies and gas-sensing performance of In 2 O 3 nanosheets is systematically investigated. The mixed phase composed of c-In 2 O 3 and rh-In 2 O 3 can be transformed into rh-In 2 O 3 by doping with rare earth elements. After doping with rare earth elements, the morphology can be changed from compact nanosheets to porous sheets. Compared with pure In 2 O 3 and La, Pr, Sm, Ce-doped porous In 2 O 3 nanosheets, Yb-doped In 2 O 3 nanosheets present the best gas-sensing performance. Among 3%–10% Yb-doped samples, 6% Yb-doped In 2 O 3 porous nanosheets exhibit the optimal gas-sensing performance to 5 × 10 −6 –750 × 10 −6 acetone, giving a high response of 15.3 toward 50 × 10 −6 acetone and fast response/recovery time at the operating temperature of 220 °C. Moreover, 6% Yb-doped porous In 2 O 3 nanosheet sensor also exhibits excellent selectivity and stability, indicating its potential in the next-generation gas sensor. Graphic abstract
AbstractList	Rare earth (La, Pr, Sm, Ce and Yb)-doped porous In 2 O 3 nanosheets are prepared by a solvothermal method. The effect of rare earth elements on the structure, morphologies and gas-sensing performance of In 2 O 3 nanosheets is systematically investigated. The mixed phase composed of c-In 2 O 3 and rh-In 2 O 3 can be transformed into rh-In 2 O 3 by doping with rare earth elements. After doping with rare earth elements, the morphology can be changed from compact nanosheets to porous sheets. Compared with pure In 2 O 3 and La, Pr, Sm, Ce-doped porous In 2 O 3 nanosheets, Yb-doped In 2 O 3 nanosheets present the best gas-sensing performance. Among 3%–10% Yb-doped samples, 6% Yb-doped In 2 O 3 porous nanosheets exhibit the optimal gas-sensing performance to 5 × 10 −6 –750 × 10 −6 acetone, giving a high response of 15.3 toward 50 × 10 −6 acetone and fast response/recovery time at the operating temperature of 220 °C. Moreover, 6% Yb-doped porous In 2 O 3 nanosheet sensor also exhibits excellent selectivity and stability, indicating its potential in the next-generation gas sensor. Graphic abstract Rare earth (La, Pr, Sm, Ce and Yb)-doped porous In2O3 nanosheets are prepared by a solvothermal method. The effect of rare earth elements on the structure, morphologies and gas-sensing performance of In2O3 nanosheets is systematically investigated. The mixed phase composed of c-In2O3 and rh-In2O3 can be transformed into rh-In2O3 by doping with rare earth elements. After doping with rare earth elements, the morphology can be changed from compact nanosheets to porous sheets. Compared with pure In2O3 and La, Pr, Sm, Ce-doped porous In2O3 nanosheets, Yb-doped In2O3 nanosheets present the best gas-sensing performance. Among 3%–10% Yb-doped samples, 6% Yb-doped In2O3 porous nanosheets exhibit the optimal gas-sensing performance to 5 × 10−6–750 × 10−6 acetone, giving a high response of 15.3 toward 50 × 10−6 acetone and fast response/recovery time at the operating temperature of 220 °C. Moreover, 6% Yb-doped porous In2O3 nanosheet sensor also exhibits excellent selectivity and stability, indicating its potential in the next-generation gas sensor.Graphic abstract
Author	Shi, Meng-Li Ding, Su-Jun Yue, Lu Liu, Zi-Xiang Zhang, Wen-Hui Guan, Rong-Feng Yi, Hui Zhang, Qing-Song
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Snippet	Rare earth (La, Pr, Sm, Ce and Yb)-doped porous In 2 O 3 nanosheets are prepared by a solvothermal method. The effect of rare earth elements on the structure,... Rare earth (La, Pr, Sm, Ce and Yb)-doped porous In2O3 nanosheets are prepared by a solvothermal method. The effect of rare earth elements on the structure,...
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SubjectTerms	Acetone Biomaterials Cerium Chemistry and Materials Science Doping Energy Gas sensors Indium oxides Lanthanum Materials Engineering Materials Science Metallic Materials Morphology Nanoscale Science and Technology Nanosheets Operating temperature Original Article Physical Chemistry Praseodymium Rare earth elements Recovery time Selectivity Trace elements
Title	Rare earth element-doped porous In2O3 nanosheets for enhanced gas-sensing performance
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