Tuning the Conductivity of Polyaniline through Doping by Means of Single Precursor Vapor Phase Infiltration

Weike Wang; Fan Yang; Chaoqiu Chen; Lianbing Zhang; Yong Qin; Mato Knez

doi:10.1002/admi.201600806

Tuning the Conductivity of Polyaniline through Doping by Means of Single Precursor Vapor Phase Infiltration

Weike Wang, Fan Yang, Chaoqiu Chen, Lianbing Zhang, Yong Qin, Mato Knez

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

This work describes a novel single precursor vapor phase infiltration (VPI) process to dope polyaniline (PANI). The infiltration is performed with the metal containing atomic layer deposition precursors MoCl₅ or SnCl₄. The conductivities are assessed with four-point probe measurements and show significant enhancements by up to 6 orders of magnitude, confirming the efficiency of the VPI process. Furthermore, it is found that the conductivities of PANI/MoCl₅ and PANI/SnCl₄ outperform the conductivity of HCl-doped PANI if exposed to elevated temperatures (150 °C) in vacuum. The chemical changes resulting from the infiltration of PANI are characterized applying FTIR and Raman spectroscopy. Scanning electron microscopy images show that the morphologies of the samples do not alter after the infiltration process.

Original language	English
Article number	1600806
Journal	Advanced Materials Interfaces
Volume	4
Issue number	4
DOIs	https://doi.org/10.1002/admi.201600806
State	Published - 22 Feb 2017
Externally published	Yes

Keywords

conductivity
doping
polyaniline
single precursor
vapor phase infiltration

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10.1002/admi.201600806

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title = "Tuning the Conductivity of Polyaniline through Doping by Means of Single Precursor Vapor Phase Infiltration",

abstract = "This work describes a novel single precursor vapor phase infiltration (VPI) process to dope polyaniline (PANI). The infiltration is performed with the metal containing atomic layer deposition precursors MoCl5 or SnCl4. The conductivities are assessed with four-point probe measurements and show significant enhancements by up to 6 orders of magnitude, confirming the efficiency of the VPI process. Furthermore, it is found that the conductivities of PANI/MoCl5 and PANI/SnCl4 outperform the conductivity of HCl-doped PANI if exposed to elevated temperatures (150 °C) in vacuum. The chemical changes resulting from the infiltration of PANI are characterized applying FTIR and Raman spectroscopy. Scanning electron microscopy images show that the morphologies of the samples do not alter after the infiltration process.",

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AU - Wang, Weike

AU - Yang, Fan

AU - Chen, Chaoqiu

AU - Zhang, Lianbing

AU - Qin, Yong

AU - Knez, Mato

PY - 2017/2/22

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AB - This work describes a novel single precursor vapor phase infiltration (VPI) process to dope polyaniline (PANI). The infiltration is performed with the metal containing atomic layer deposition precursors MoCl5 or SnCl4. The conductivities are assessed with four-point probe measurements and show significant enhancements by up to 6 orders of magnitude, confirming the efficiency of the VPI process. Furthermore, it is found that the conductivities of PANI/MoCl5 and PANI/SnCl4 outperform the conductivity of HCl-doped PANI if exposed to elevated temperatures (150 °C) in vacuum. The chemical changes resulting from the infiltration of PANI are characterized applying FTIR and Raman spectroscopy. Scanning electron microscopy images show that the morphologies of the samples do not alter after the infiltration process.

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KW - doping

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Tuning the Conductivity of Polyaniline through Doping by Means of Single Precursor Vapor Phase Infiltration

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Keywords

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