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Main Authors: Feng, Bo, Liu, Xiantang, Liu, Xinmin, Li, Yingli, Li, Hang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.10870
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_version_ 1866913473883013120
author Feng, Bo
Liu, Xiantang
Liu, Xinmin
Li, Yingli
Li, Hang
author_facet Feng, Bo
Liu, Xiantang
Liu, Xinmin
Li, Yingli
Li, Hang
contents The DLVO theory and electrical double layer (EDL) theory are the foundation of colloid and interface science. With the invention and development of surface forces apparatus (SFA) and atomic force microscope (AFM), the measurements and interpretations of DLVO forces (i.e., mainly measuring the EDL force (electrostatic force) FEDL and van der Waals force FvdW, and interpreting the potential ψ, charge density σ, and Hamaker constant H) can be greatly facilitated by various surface force measurement techniques, and would have been very promising in advancing the DLVO theory, EDL theory, and colloid and interface science. However, although numerous studies have been conducted, pervasive anomalous results can be identified throughout the literature, main including: (1) the fitted ψ/σ is normally extremely small (ψ can be close to or (much) smaller than ψζ (zeta potential)) and varies greatly; (2) the fitted ψ/σ can exceed the allowable range of calculation; and (3) the measured FvdW and the fitted H vary greatly. Based on rigorous and comprehensive arguments, we have reasonably explained the pervasive anomalous results in the literature and further speculated that, the pervasive anomalous results are existing but not noticed and questioned owing to the two important aspects: (1) the pervasive unreasonable understandings of EDL theory and (2) the commonly neglected systematic errors. Consequently, we believe that the related studies have been seriously hampered. We therefore call for re-examination and re-analysis of related experimental results and theoretical understandings by careful consideration of the EDL theory and systematic errors. On these bases, we can interpret the experimental results properly and promote the development of EDL theory, colloid and interface science, and many related fields.
format Preprint
id arxiv_https___arxiv_org_abs_2408_10870
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Revisiting the measurements and interpretations of DLVO forces
Feng, Bo
Liu, Xiantang
Liu, Xinmin
Li, Yingli
Li, Hang
Chemical Physics
The DLVO theory and electrical double layer (EDL) theory are the foundation of colloid and interface science. With the invention and development of surface forces apparatus (SFA) and atomic force microscope (AFM), the measurements and interpretations of DLVO forces (i.e., mainly measuring the EDL force (electrostatic force) FEDL and van der Waals force FvdW, and interpreting the potential ψ, charge density σ, and Hamaker constant H) can be greatly facilitated by various surface force measurement techniques, and would have been very promising in advancing the DLVO theory, EDL theory, and colloid and interface science. However, although numerous studies have been conducted, pervasive anomalous results can be identified throughout the literature, main including: (1) the fitted ψ/σ is normally extremely small (ψ can be close to or (much) smaller than ψζ (zeta potential)) and varies greatly; (2) the fitted ψ/σ can exceed the allowable range of calculation; and (3) the measured FvdW and the fitted H vary greatly. Based on rigorous and comprehensive arguments, we have reasonably explained the pervasive anomalous results in the literature and further speculated that, the pervasive anomalous results are existing but not noticed and questioned owing to the two important aspects: (1) the pervasive unreasonable understandings of EDL theory and (2) the commonly neglected systematic errors. Consequently, we believe that the related studies have been seriously hampered. We therefore call for re-examination and re-analysis of related experimental results and theoretical understandings by careful consideration of the EDL theory and systematic errors. On these bases, we can interpret the experimental results properly and promote the development of EDL theory, colloid and interface science, and many related fields.
title Revisiting the measurements and interpretations of DLVO forces
topic Chemical Physics
url https://arxiv.org/abs/2408.10870