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Journal of Materials Science: Materials in Electronics

Erschienen in:

14.03.2020

Hydrothermal preparation and acetone-sensing properties of Ni-doped porous LaFeO₃ microspheres

verfasst von: Pei Hao, Zhenguang Lin, Peng Song, Zhongxi Yang, Qi Wang

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 9/2020

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Abstract

In this paper, porous LaFeO₃ microspheres doped with Ni were prepared by an extraordinary simple one-step hydrothermal method. The proper content of Ni²⁺ ions replaced the Fe atoms in LaFeO₃ microspheres and occupied the B site of perovskite. A series of gas-sensing tests have proved that the gas-sensing performance of LaFeO₃ for acetone detection has been greatly improved by adding proper amount of Ni²⁺ ions to LaFeO₃ microspheres. Not only the response to 100 ppm acetone gas up to 82.75, but also the optimum operating temperature has descended 40 °C contrasts with pure LaFeO₃ microspheres. The gas sensor prepared by Ni-doped LaFeO₃ has high stability and strong recognition ability to acetone gas. This kind of transition metal ion-doped gas-sensing materials prepared by simple hydrothermal method provides a strategy for the design and development of high-performance gas sensor.

Vorheriger Artikel Effect of growth and electrical properties of TiOx films on microbolometer design

Nächster Artikel Self-assembly synthesis of flower-like CeO2/MoS2 heterojunction with enhancement of visible light photocatalytic activity for methyl orange

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J. Zhang, X.H. Liu, G. Neri, N. Pinna, Nanostructured materials for room-temperature gas sensors. Adv. Mater. 28, 795–831 (2016)

W.T. Koo, S.J. Choi, S.J. Kim, J.S. Jang, H.L. Tuller, I.D. Kim, Heterogeneous sensitization of metal-organic framework driven metal@metal oxide complex catalysts on an oxide nanofiber scaffold toward superior gas sensors. J. Am. Chem. Soc. 138, 13431–13437 (2016)

Y.H. Zhang, Y.L. Li, F.L. Gong, K.F. Xie, Double-platelet Pd@ZnO microcrystals for NO₂ chemical sensors: a facile synthesis and DFT investigation. Phys. Chem. Chem. Phys. 21, 22039–22047 (2019)

J.S. Xu, W. Lin, Y.D. Sun, J. Zhang, C. Zhang, M.Z. Zhang, Fabrication of porous MgCo₂O₄ nanoneedle arrays/Ni foam as an advanced electrode material for asymmetric supercapacitors. J. Alloy Compd. 779, 100–107 (2019)

Z.R. Ma, P. Song, Z.X. Yang, Q. Wang, Trimethylamine detection of 3D rGO/mesoporous In₂O₃ nanocomposites at room temperature. Appl. Surf. Sci. 465, 625–634 (2019)

D. Meng, T. Yamazaki, T. Kikuta, Preparation and gas sensing properties of undoped and Pd-doped TiO₂ nanowires. Sens. Actuators B 190, 838–843 (2014)

L. Liu, Y.T. Zhao, P. Song, Z.X. Yang, Q. Wang, ppb level triethylamine detection of yolk-shell SnO₂/Au/Fe₂O₃ nanoboxes at low-temperature. Appl. Surf. Sci. 476, 391–401 (2019)

X.H. Chen, X. Lai, J.H. Hu, L. Wan, An easy and novel approach to prepare Fe₃O₄-reduced graphene oxide composite and its application for high-performance lithium-ion batteries. RSC Adv. 5, 62913–62920 (2015)

Y.H. Zhang, Y.L. Li, F.L. Gong, K.F. Xie, Al doped narcissus-like ZnO for enhanced NO₂ sensing performance: an experimental and DFT investigation. Sens. Actuators B 305, 127489–127494 (2020)

10.

P. Song, Q. Wang, Z.X. Yang, Preparation, characterization and acetone sensing properties of Ce-doped SnO₂ hollow spheres. Sens. Actuators B 173, 839–846 (2012)

11.

Z.X. Yang, Y. Huang, G.N. Chen, Z.P. Guo, S.Y. Cheng, S.Z. Huang, Ethanol gas sensor based on Al-doped ZnO nanomaterial with many gas diffusing channels. Sens. Actuators B 140, 549–556 (2009)

12.

H.J. Kim, H.-M. Jeong, T.-H. Kim, J.H. Chung, Y.C. Kang, J.-H. Lee, Enhanced ethanol sensing characteristics of In₂O₃-decorated NiO hollow nanostructures via modulation of hole accumulation layer. ACS Appl. Mater. Interfaces 6, 18197–18204 (2014)

13.

Y. Seekaew, A. Wisitsoraat, D. Phokharatkul, C. Wongchoosuk, Room temperature toluene gas sensor based on TiO₂ nanoparticles decorated 3D graphene-carbon nanotube nanostructures. Sens. Actuators B 279, 69–78 (2019)

14.

H.I. Chen, C.Y. Hsiao, W.C. Chen et al., Characteristics of a Pt/NiO thin film-based ammonia gas sensor. Sens. Actuators B 256, 962–967 (2018)

15.

Y.F. Wang, F.D. Qu, J. Liu, Y. Wang, J.R. Zhou, S.P. Ruan, Enhanced H₂S sensing characteristics of CuO-NiO core-shell microspheres sensors. Sens. Actuators B 209, 515–523 (2015)

16.

L. Wang, R. Zhang, T. Zhou, Z. Lou, J. Deng, T. Zhang, P-type octahedral Cu₂O particles with exposed 111 facets and superior CO sensing properties. Sens. Actuators B 239, 211–217 (2017)

17.

P. Rai, J. Yoon, H. Jeong, S. Hwang, C. Kwak, J. Lee, Design of highly sensitive and selective Au@NiO yolk–shell nanoreactors for gas sensor applications. Nanoscale 6, 8292–8299 (2014)

18.

Z. Wen, L.P. Zhu, W.M. Mei, L. Hu, Y.G. Li, L.W. Sun, H. Cai, Z.Z. Ye, Rhombus-shaped Co₃O₄ nanorod arrays for high-performance gas sensor. Sens. Actuators B 186, 172–179 (2013)

19.

J.W. Fergus, Perovskite oxides for semiconductor-based gas sensor. Sens. Actuators B 123, 1169–1179 (2007)

20.

H.T. Giang, H.T. Duy, P.Q. Ngan, G.H. Thai, T.A.T. Do, D.T. Thu, N.N. Toan, Hydrocarbon gas sensing of nano-crystalline perovskite oxides LnFeO₃ (Ln = La, Nd and Sm). Sens. Actuators B 158, 246–251 (2011)

21.

P. Song, Q. Wang, Z. Zhang, Z.X. Yang, Synthesis and gas sensing properties of biomorphic LaFeO₃ hollow fibers templated from cotton. Sens. Actuators B 147, 248–254 (2010)

22.

K. Fan, H.W. Qin, L. Wang, L. Ju, J.F. Hu, CO₂ gas sensors based on La₁₋_xSr_xFeO₃ nanocrystalline powders. Sens. Actuators B 177, 265–269 (2013)

23.

T.T.N. Phan, A.N. Nikoloski, P.A. Bahri, D. Li, Optimizing photocatalytic performance of hydrothermally synthesized LaFeO₃ by tuning material properties and operating conditions. J. Environ. Chem. Eng. 6, 1209–1218 (2018)

24.

P. Song, H.H. Zhang, D. Han, J. Li, Z.X. Yang, Q. Wang, Preparation of biomorphic porous LaFeO₃ by sorghum straw biotemplate method and its acetone sensing properties. Sens. Actuators B 196, 140–146 (2014)

25.

H.X. Xiao, C. Xue, P. Song, J. Li, Q. Wang, Preparation of porous LaFeO₃ microshperes and their gas-sensing property. Appl. Surf. Sci. 337, 65–71 (2015)

26.

A. Benali, S. Azizi, M. Bejar, E. Dhahri, M.F.P. Graça, Structural, electrical and ethanol sensing properties of double-doping LaFeO₃ perovskite oxides. Ceram. Int. 40, 14367–14373 (2014)

27.

J. Qin, Z.D. Cui, X.J. Yang, S.L. Zhu, Z.Y. Li, Y.Q. Liang, Three-dimensionally ordered macroporous La₁₋_xMg_xFeO₃ as high performance gas sensor to methanol. J. Alloy Compd. 635, 194–202 (2015)

28.

L. Li, H.W. Qin, C.M. Shi, L. Zhang, Y.P. Chen, J.F. Hu, CO₂ sensing properties of La_1-xBa_xFeO₃ thick film and packed powder sensors. RSC Adv. 5, 103073–103081 (2015)

29.

C.M. Shi, H.W. Qin, M. Zhao, X.F. Wang, L. Li, J.F. Hu, Investigation on electrical transport CO sensing characteristics and mechanism for nanocrystalline La₁₋_xCa_xFeO₃ sensors. Sens. Actuators B 190, 25–31 (2014)

30.

P. Song, H.W. Qin, L. Zhang, K. An, Z.J. Lin, J.F. Hu, M.H. Jiang, The structure, electrical and ethanol-sensing properties of La₁₋_xPb_xFeO₃ perovskite ceramics with x ≤ 0.3. Sens. Actuators B 104, 312–316 (2005)

31.

L.H. Sun, H.W. Qin, K.Y. Wang, M. Zhao, J.F. Hu, Structure and electrical properties of nanocrystalline La₁₋_xBa_xFeO₃ for gas sensing application. Mater. Chem. Phys. 125, 305–308 (2011)

32.

Q. Peng, B. Shan, Y.W. Wen, R. Chen, Enhanced charge transport of LaFeO₃ via transition metal (Mn Co, Cu) doping for visible light photoelectrochemical water oxidation. Int. J. Hydrogen Energy 40, 15423–15431 (2015)

33.

L. Ma, S.Y. Ma, Z. Qiang, X.L. Xu, Q. Chen, H.M. Yang, H. Chen, Q. Ge, Q.Z. Zeng, B.Q. Wang, Preparation of Co-doped LaFeO₃ nanofibers with enhanced acetic acid sensing properties. Mater. Lett. 200, 47–50 (2017)

34.

G. Bai, H. Dai, J. Deng, Y. Liu, K. Ji, Porous NiO nanoflowers and nanourchins: highly active catalysts for toluene combustion. Catal. Commun. 27, 48–153 (2012)

35.

U.T. Nakate, R. Ahmad, P. Patil, Y.S. Wang, K.S. Bhat, T. Mahmoudi, Y.T. Yu, E. Suh, Y.B. Hahn, Improved selectivity and low concentration hydrogen gas sensor application of Pd sensitized heterojunction n-ZnO/p-NiO nanostructures. J. Alloy Compd. 797, 456–464 (2019)

36.

H.B. Ren, C.P. Gu, S.W. Joo et al., Effective hydrogen gas sensor based on NiO@rGO nanocomposite. Sens. Actuators B 266, 506–513 (2018)

37.

N. Jayababu, M. Poloju, J. Shruthi, M.V.R. Reddy, NiO decorated CeO₂ nanostructures as room temperature isopropanol gas sensors. RSC Adv. 9, 13765–13775 (2019)

38.

M.R. Modaberi, R. Rooydell, S. Brahma, A.A. Akande, B.W. Mwakikunga, C.P. Liu, Enhanced response and selectivity of H₂S sensing through controlled Ni doping into ZnO nanorods by using single metal organic precursors. Sens. Actuators B 273, 1278–1290 (2018)

39.

E.S. Cao, Y.R. Qin, T.T. Cui, L. Sun, W.T. Hao, Y.J. Zhang, Influence of Na doping on the magnetic properties of LaFeO₃ powders and dielectric properties of LaFeO₃ ceramics prepared by citric sol-gel method. Ceram. Int. 43, 7922–7928 (2017)

40.

K. Cao, E.S. Cao, Y.J. Zhang, W.T. Hao, L. Sun, H. Peng, The influence of nonstoichiometry on electrical transport and ethanol sensing characteristics for nanocrystalline LaFe_xO₃₋_δ, sensor. Sens. Actuators B 230, 592–599 (2016)

41.

L. Liu, Y. Zhang, G. Wang, S. Li, L. Wang, Y. Han, X. Jiang, A. Wei, High toluene sensing properties of NiO-SnO₂ composite nanofiber sensors operating at 330 °C. Sens. Actuators B 160, 448–454 (2011)

42.

Y. Chen, L. Yu, D. Feng, M. Zhuo, M. Zhang, E. Zhang, Z. Xu, Q. Li, T. Wang, Superior ethanol-sensing properties based on Ni-doped SnO₂ p−n heterojunction hollow spheres. Sens. Actuators B 166, 61–67 (2012)

43.

W.H. Jiang, L.L. Meng, S.F. Zhang, Design of highly sensitive and selective xylene gas sensor based on Ni-doped MoO₃ nano-pompon. Sens. Actuators B 299, 126888 (2019)

44.

J.P. Cheng, B.B. Wang, M.G. Zhao, F. Liu, X.B. Zhang, Nickel-doped tin oxide hollow nanofibers prepared by electrospinning for acetone sensing. Sens. Actuators B 190, 78–85 (2014)

45.

Z.H. Jing, Fabrication and gas sensing properties of Ni-doped gamma-Fe₂O₃ by anhydrous solvent method. Mater. Lett. 60, 3315–3318 (2006)

46.

N. Rezlescu, N. Iftimie, E. Rezlescu, C. Doroftei, P.D. Popa, Semiconducting gas sensor for acetone based on the fine grained nickel ferrite. Sens. Actuators B 114, 427–432 (2006)

47.

I. Jaouali, H. Hamrouni, N. Moussa, M.F. Nsib, M.A. Centeno, A. Bonavita, G. Neri, S.G. Leonardi, LaFeO₃ ceramics as selective oxygen sensors at mild temperature. Ceram. Int. 44, 4183–4189 (2018)

48.

M.P. Chen, D.M. Zhang et al., Excellent toluene gas sensing properties of molecular imprinted Ag-LaFeO₃ nanostructures synthesized by microwave-assisted process. Mater. Res. Bull. 111, 320–328 (2019)

49.

Y. Xiong, Z.Y. Zhu, D.G. Ding, W.B. Lu, Q.Z. Xue, Multi-shelled ZnCo₂O₄ yolk-shell spheres for high-performance acetone gas sensor. Appl. Surf. Sci. 443, 114–121 (2018)

50.

S. Singkammo, S. Wisitsoraat, C. Sriprachuabwong, A. Tuantranont, S. Phanichphant, C. Liewhiran, Electrolytically exfoliated graphene-loaded flame-made Ni-doped, SnO₂ composite film for acetone sensing. ACS Appl. Mater. Interfaces 7, 3077–3092 (2015)

51.

X. Liu, J. Zhang, X. Guo, S. Wu, S. Wang, Enhanced sensor response of Ni-doped SnO₂ hollow spheres. Sens. Actuators B 152, 162–167 (2011)

52.

Y.P. Chen, H.W. Qin, X.F. Wang, L. Li, J.F. Hu, Acetone sensing properties and mechanism of nano-LaFeO₃ thick-films. Sens. Actuators B 235, 56–66 (2016)

53.

P.A. Murade, V.S. Sangawar, G.N. Chaudhari, V.D. Kapse, A.U. Bajpeyee, Acetone gas-sensing performance of Sr-doped nanostructured LaFeO₃ semiconductor prepared by citrate sol–gel route. Curr. Appl. Phys. 11, 451–456 (2011)

Titel: Hydrothermal preparation and acetone-sensing properties of Ni-doped porous LaFeO3 microspheres
verfasst von: Pei Hao
Zhenguang Lin
Peng Song
Zhongxi Yang
Qi Wang
Publikationsdatum: 14.03.2020
Verlag: Springer US
Erschienen in: Journal of Materials Science: Materials in Electronics / Ausgabe 9/2020
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-020-03224-x

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