Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude

Jinyang Zhang; Fergus J.M. Rogers; Nadim Darwish; Vinicius R. Gonçales; Yan B. Vogel; Fei Wang; J. Justin Gooding; M. Chandramalika R. Peiris; Guohua Jia; Jean Pierre Veder; Michelle L. Coote; Simone Ciampi

doi:10.1021/jacs.9b00297

Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude

Jinyang Zhang, Fergus J.M. Rogers, Nadim Darwish, Vinicius R. Gonçales, Yan B. Vogel, Fei Wang, J. Justin Gooding, M. Chandramalika R. Peiris, Guohua Jia, Jean Pierre Veder, Michelle L. Coote^*, Simone Ciampi

^*Corresponding author for this work

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

58 Citations (Scopus)

Abstract

Electrically insulating objects gain a net electrical charge when brought in and out of contact. This phenomenon - triboelectricity - involves the flow of charged species, but conclusively establishing their nature has proven extremely difficult. Here, we demonstrate an almost linear relationship between a plastic sample's net negative charge and the amount of solution metal ions discharged to metallic particles with a coefficient of proportionality linked to its electron affinity (stability of anionic fragments). The maximum magnitude of reductive redox work is also material dependent: metallic particles grow to a larger extent over charged dielectrics that yield stable cationic fragments (smaller ionization energy). Importantly, the extent to which the sample can act as electron source greatly exceeds the net charging measured in a Faraday pail/electrometer set up, which brings direct evidence of triboeletricity being a mosaic of positive and negative charges rather than a homogeneous ensemble and defines for the first time their quantitative scope in electrochemistry.

Original language	English
Pages (from-to)	5863-5870
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	141
Issue number	14
DOIs	https://doi.org/10.1021/jacs.9b00297
Publication status	Published - 10 Apr 2019

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Zhang, J., Rogers, F. J. M., Darwish, N., Gonçales, V. R., Vogel, Y. B., Wang, F., Gooding, J. J., Peiris, M. C. R., Jia, G., Veder, J. P., Coote, M. L., & Ciampi, S. (2019). Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude. Journal of the American Chemical Society, 141(14), 5863-5870. https://doi.org/10.1021/jacs.9b00297

@article{f9eb793af2654d71a9c275282172a56b,

title = "Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude",

abstract = "Electrically insulating objects gain a net electrical charge when brought in and out of contact. This phenomenon - triboelectricity - involves the flow of charged species, but conclusively establishing their nature has proven extremely difficult. Here, we demonstrate an almost linear relationship between a plastic sample's net negative charge and the amount of solution metal ions discharged to metallic particles with a coefficient of proportionality linked to its electron affinity (stability of anionic fragments). The maximum magnitude of reductive redox work is also material dependent: metallic particles grow to a larger extent over charged dielectrics that yield stable cationic fragments (smaller ionization energy). Importantly, the extent to which the sample can act as electron source greatly exceeds the net charging measured in a Faraday pail/electrometer set up, which brings direct evidence of triboeletricity being a mosaic of positive and negative charges rather than a homogeneous ensemble and defines for the first time their quantitative scope in electrochemistry.",

author = "Jinyang Zhang and Rogers, {Fergus J.M.} and Nadim Darwish and Gon{\c c}ales, {Vinicius R.} and Vogel, {Yan B.} and Fei Wang and Gooding, {J. Justin} and Peiris, {M. Chandramalika R.} and Guohua Jia and Veder, {Jean Pierre} and Coote, {Michelle L.} and Simone Ciampi",

note = "Publisher Copyright: Copyright {\textcopyright} 2019 American Chemical Society.",

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doi = "10.1021/jacs.9b00297",

language = "English",

volume = "141",

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Zhang, J, Rogers, FJM, Darwish, N, Gonçales, VR, Vogel, YB, Wang, F, Gooding, JJ, Peiris, MCR, Jia, G, Veder, JP, Coote, ML & Ciampi, S 2019, 'Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude', Journal of the American Chemical Society, vol. 141, no. 14, pp. 5863-5870. https://doi.org/10.1021/jacs.9b00297

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T1 - Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude

AU - Zhang, Jinyang

AU - Rogers, Fergus J.M.

AU - Darwish, Nadim

AU - Gonçales, Vinicius R.

AU - Vogel, Yan B.

AU - Wang, Fei

AU - Gooding, J. Justin

AU - Peiris, M. Chandramalika R.

AU - Jia, Guohua

AU - Veder, Jean Pierre

AU - Coote, Michelle L.

AU - Ciampi, Simone

PY - 2019/4/10

Y1 - 2019/4/10

N2 - Electrically insulating objects gain a net electrical charge when brought in and out of contact. This phenomenon - triboelectricity - involves the flow of charged species, but conclusively establishing their nature has proven extremely difficult. Here, we demonstrate an almost linear relationship between a plastic sample's net negative charge and the amount of solution metal ions discharged to metallic particles with a coefficient of proportionality linked to its electron affinity (stability of anionic fragments). The maximum magnitude of reductive redox work is also material dependent: metallic particles grow to a larger extent over charged dielectrics that yield stable cationic fragments (smaller ionization energy). Importantly, the extent to which the sample can act as electron source greatly exceeds the net charging measured in a Faraday pail/electrometer set up, which brings direct evidence of triboeletricity being a mosaic of positive and negative charges rather than a homogeneous ensemble and defines for the first time their quantitative scope in electrochemistry.

AB - Electrically insulating objects gain a net electrical charge when brought in and out of contact. This phenomenon - triboelectricity - involves the flow of charged species, but conclusively establishing their nature has proven extremely difficult. Here, we demonstrate an almost linear relationship between a plastic sample's net negative charge and the amount of solution metal ions discharged to metallic particles with a coefficient of proportionality linked to its electron affinity (stability of anionic fragments). The maximum magnitude of reductive redox work is also material dependent: metallic particles grow to a larger extent over charged dielectrics that yield stable cationic fragments (smaller ionization energy). Importantly, the extent to which the sample can act as electron source greatly exceeds the net charging measured in a Faraday pail/electrometer set up, which brings direct evidence of triboeletricity being a mosaic of positive and negative charges rather than a homogeneous ensemble and defines for the first time their quantitative scope in electrochemistry.

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JF - Journal of the American Chemical Society

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Electrochemistry on Tribocharged Polymers Is Governed by the Stability of Surface Charges Rather than Charging Magnitude

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