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Stably dispersed carbon nanotubes covalently bonded to phthalocyanine cobalt(II) for ppb-level H2S s

上海光学精密机械研究所 免费考研网/2018-05-06

外文题目: Stably dispersed carbon nanotubes covalently bonded to phthalocyanine cobalt(II) for ppb-level H2S sensing at room temperature
作者: Wu, Hao; Chen, Zhimin; Zhang, Jialin; Wu, Feng; He, Chunying; Wang, Bin; Wu, Yiqun; Ren, Zhiyu
刊名: J. Mater. Chem. A
年: 2016 卷: 4 期: 3 页: 1096--1104
英文关键词:

PHOTOINDUCED ELECTRON-TRANSFER; GAS SENSOR; HYDROGEN-SULFIDE; THIN-FILMS; HYBRID MATERIAL; PERFORMANCE; NANOWIRES; MECHANISM; LAYER; SHELL
英文摘要:
Cost-efficient, highly sensitive and stable sensing materials play a key role in developing H2S sensors. Herein, tetra-beta-carboxyphenyloxyphthalocyanine cobalt(II) (cPcCo) has been successfully bonded on the surface of acidified multiwalled carbon nanotubes (aCNTs) by a facile two-step condensation reaction in the presence of N,N'-dicyclohexylcarbodiimide (DCC), using hydroquinone (HQ), p-aminophenol (PAP), and p-phenylenediamine (PPD) as linking molecules, respectively. The obtained cPcCo-B-aCNT (B= HQ, PAP, and PPD) hybrids display good dispersibility in ethanol, which is beneficial to construct uniform sensing devices. The cPcCo-B-aCNT sensors, with a loose network-like structure, present abundant exposed sensing sites, oriented transmission of charges, and unimpeded pathways for H2S diffusion, which endow the cPcCo-B-aCNT hybrids with excellent sensing performance, in terms of sensitivity, reliability, reproducibility, and detection limit. The detection limit of the sensors composed of cPcCo-BaCNT hybrids towards H2S reaches the ppb-level at room temperature, which is about the same as the odor threshold level for humans. For the cPcCo-HQ-aCNT sensor, the response to H2S varies linearly with respect to its concentration from 20 to 160 ppb and from 320 to 2560 ppb, with the highest gas response of 2.5% to 80 ppb H2S and a low detection limit of 5 ppb. Furthermore, the linking molecules play a critical role in the sensitivity of H2S, as evidenced from the current-voltage characteristics. The systematic study developed here provides a valid way to fabricate other high-efficient H2S sensors.


文献类型: 期刊论文
正文语种: English
收录类别: SCIEI
DOI: 10.1039/c5ta09213b


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