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Multi-mode humidity sensing with water-soluble copper phthalocyanine for increased sensitivity and dynamic range.


ABSTRACT: Aqueous solubility of copper phthalocyanine-3,4',4?,4?'-tetrasulfonic acid tetrasodium salt (CuPcTs) enables fabrication of flexible electronic devices by low cost inkjet printing. We (1) investigate water adsorption kinetics on CuPcTs for better understanding the effects of relative humidity (RH) on hydrophilic phthalocyanines, and (2) assess CuPcTs as a humidity-sensing material. Reaction models show that H2O undergoes 2-site adsorption which can be represented by a pair of sequentially-occurring pseudo-first order reactions. Using high frequency (300-700?THz) and low frequency (1-8?MHz) dielectric spectroscopy combined with gravimetric measurements and principal component analysis, we observe that significant opto-electrical changes in CuPcTs occur at RH ? 60%. The results suggest that rapid H2O adsorption takes place at hydrophilic sulfonyl/salt groups on domain surfaces at low RH, while slow adsorption and diffusion of H2O into CuPcTs crystallites leads to a mixed CuPcTs-H2O phase at RH?>?60%, resulting in high frequency dielectric screening of the film by water and dissociation of Na+ from CuPc(SO3-)4 ions. The CuPcTs-H2O interaction can be tracked using a combination of gravimetric, optical, and electrical sensing modes, enabling accurate (?±?2.5%) sensing in the ~0-95% RH range with a detection limit of less than 0.1% RH.

SUBMITTER: Muckley ES 

PROVIDER: S-EPMC5577260 | biostudies-literature | 2017 Aug

REPOSITORIES: biostudies-literature

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Multi-mode humidity sensing with water-soluble copper phthalocyanine for increased sensitivity and dynamic range.

Muckley Eric S ES   Jacobs Christopher B CB   Vidal Keith K   Lavrik Nickolay V NV   Sumpter Bobby G BG   Ivanov Ilia N IN  

Scientific reports 20170830 1


Aqueous solubility of copper phthalocyanine-3,4',4″,4″'-tetrasulfonic acid tetrasodium salt (CuPcTs) enables fabrication of flexible electronic devices by low cost inkjet printing. We (1) investigate water adsorption kinetics on CuPcTs for better understanding the effects of relative humidity (RH) on hydrophilic phthalocyanines, and (2) assess CuPcTs as a humidity-sensing material. Reaction models show that H<sub>2</sub>O undergoes 2-site adsorption which can be represented by a pair of sequenti  ...[more]

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