Synergetically Selective Toluene Sensing in Hematite-Decorated Nickel Oxide Nanocorals
- Authors
- Suh, Jun Min; Shim, Young-Seok; Kim, Do Hong; Sohn, Woonbae; Jung, Youngmo; Lee, Seon Yong; Choi, Seokhoon; Kim, Yeon Hoo; Jeon, Jong-Myeong; Hong, Kootak; Kwon, Ki Chang; Park, Seo Yun; Kim, Chulki; Lee, Jong-Heun; Kang, Chong-Yun; Jang, Ho Won
- Issue Date
- 2017-03
- Publisher
- WILEY
- Citation
- ADVANCED MATERIALS TECHNOLOGIES, v.2, no.3
- Abstract
- The decoration of p-type nickel oxide (NiO) with n-type hematite (alpha-Fe2O3) to achieve vertically ordered 1D nanostructures is an attractive strategy to enhance gas sensing properties. Herein, the authors report a facile method for alpha-Fe2O3 decoration of the whole surface of vertical NiO nanorods. An NiO/Fe heterostructure is deposited in multiple steps using a glancing angle deposition method, which is followed by the oxidation of Fe into alpha-Fe2O3. Thermally agglomerated alpha-Fe2O3 nanoparticles are uniformly distributed on the whole surface of the NiO nanorods. Due to the a-Fe2O3 decoration, the NiO nanorods exhibit a coral-like rough surface and, more interestingly, their preferential crystallographic orientation changed from ( 111) to ( 200). Compared to bare NiO nanorods, the alpha-Fe2O3-decorated NiO nanocorals exhibit a 45.4 times higher response to 50 ppm toluene ( C7H8) at 350 degrees C. Their theoretical detection limit for C7H8 is calculated to be approximate to 22 ppb. The observed unprecedented synergetic effects of alpha-Fe2O3- decorated NiO nanocorals for the extremely selective C7H8 sensing, as well as their facile synthetic route, establish a new perspective on heterostructured metal oxide 1D nanostructures for selective gas sensing.
- Keywords
- GAS SENSORS; THIN-FILMS; HIERARCHICAL NANOSTRUCTURES; NIO; PERFORMANCE; NANORODS; DESIGN; C2H5OH; LAYERS; NO2; gas sensors; hematite; nickel oxide; selective; toluene
- ISSN
- 2365-709X
- URI
- https://pubs.kist.re.kr/handle/201004/123001
- DOI
- 10.1002/admt.201600259
- Appears in Collections:
- KIST Article > 2017
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