Forces between zinc sulphide surfaces; Amplification of the hydrophobic attraction by surface charge

E. Jen Teh; Naoyuki Ishida; William M. Skinner; Drew Parsons; Vincent S.J. Craig

doi:10.1039/c9cp02797a

Forces between zinc sulphide surfaces; Amplification of the hydrophobic attraction by surface charge

E. Jen Teh, Naoyuki Ishida, William M. Skinner, Drew Parsons, Vincent S.J. Craig

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

2 Citations (Scopus)

Abstract

Smooth Zinc Sulphide (ZnS) surfaces were prepared by magnetron sputtering and the interaction forces were measured between them as a function of pH. At the isoelectric point (iep) of pH 7.1 the attractive force was well described by the van der Waals interaction calculated using Lifshitz theory for a layered system. Away from the iep, the forces were fitted using DLVO theory extended to account for surface roughness. At pH 9.8 the surfaces acquire a negative charge and an electrostatic repulsion is evident. Below the iep the surfaces acquire a positive charge leading to electrostatic repulsion. The forces in the range 3.8 < pH < 4.8 show an additional attraction on approach and much greater adhesion than at other pH values. This is attributed to the hydrophobic attraction being amplified by a small degree of charge on the surface as has previously been reported for adhesion measurements. The range of the measured forces is attributed to the long-range orientational order of water (>5 nm).

Original language	English
Pages (from-to)	20055-20064
Number of pages	10
Journal	Physical Chemistry Chemical Physics
Volume	21
Issue number	36
DOIs	https://doi.org/10.1039/c9cp02797a
Publication status	Published - 2019

ASJC Scopus subject areas

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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10.1039/c9cp02797a

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title = "Forces between zinc sulphide surfaces; Amplification of the hydrophobic attraction by surface charge",

abstract = "Smooth Zinc Sulphide (ZnS) surfaces were prepared by magnetron sputtering and the interaction forces were measured between them as a function of pH. At the isoelectric point (iep) of pH 7.1 the attractive force was well described by the van der Waals interaction calculated using Lifshitz theory for a layered system. Away from the iep, the forces were fitted using DLVO theory extended to account for surface roughness. At pH 9.8 the surfaces acquire a negative charge and an electrostatic repulsion is evident. Below the iep the surfaces acquire a positive charge leading to electrostatic repulsion. The forces in the range 3.8 < pH < 4.8 show an additional attraction on approach and much greater adhesion than at other pH values. This is attributed to the hydrophobic attraction being amplified by a small degree of charge on the surface as has previously been reported for adhesion measurements. The range of the measured forces is attributed to the long-range orientational order of water (>5 nm).",

author = "Teh, {E. Jen} and Naoyuki Ishida and Skinner, {William M.} and Drew Parsons and Craig, {Vincent S.J.}",

note = "Funding Information: This magnetron sputtering was performed in the ACT node of the Australian National Fabrication Facility, a facility established under the National Collaborative Research Infrastructure Strategy to provide nano and micro-fabrication facilities for Australian based researchers. The Centre of Advanced Microscope (CAM) at ANU provided FESEM access and expertise. V. S. J. Craig gratefully acknowledges support from the Australian Research Council through a Discovery Grant, DP140102371. Publisher Copyright: {\textcopyright} 2019 the Owner Societies.",

year = "2019",

doi = "10.1039/c9cp02797a",

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AU - Craig, Vincent S.J.

N1 - Funding Information: This magnetron sputtering was performed in the ACT node of the Australian National Fabrication Facility, a facility established under the National Collaborative Research Infrastructure Strategy to provide nano and micro-fabrication facilities for Australian based researchers. The Centre of Advanced Microscope (CAM) at ANU provided FESEM access and expertise. V. S. J. Craig gratefully acknowledges support from the Australian Research Council through a Discovery Grant, DP140102371. Publisher Copyright: © 2019 the Owner Societies.

PY - 2019

Y1 - 2019

N2 - Smooth Zinc Sulphide (ZnS) surfaces were prepared by magnetron sputtering and the interaction forces were measured between them as a function of pH. At the isoelectric point (iep) of pH 7.1 the attractive force was well described by the van der Waals interaction calculated using Lifshitz theory for a layered system. Away from the iep, the forces were fitted using DLVO theory extended to account for surface roughness. At pH 9.8 the surfaces acquire a negative charge and an electrostatic repulsion is evident. Below the iep the surfaces acquire a positive charge leading to electrostatic repulsion. The forces in the range 3.8 < pH < 4.8 show an additional attraction on approach and much greater adhesion than at other pH values. This is attributed to the hydrophobic attraction being amplified by a small degree of charge on the surface as has previously been reported for adhesion measurements. The range of the measured forces is attributed to the long-range orientational order of water (>5 nm).

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Forces between zinc sulphide surfaces; Amplification of the hydrophobic attraction by surface charge

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