2021
DOI: 10.1021/acs.jpcb.1c02175
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Modification of the Matalon–Packter Law for Self-Organized Periodic Precipitation Patterns by Incorporating Time-Dependent Diffusion Flux

Abstract: Spontaneous pattern formation is common in both inanimate and living systems. Although the Liesegang pattern (LP) is a well-studied chemical model for precipitation patterns, various recent LP systems based on artificial control could not be easily evaluated using classical tools. The Matalon–Packter (MP) law describes the effect of the initial electrolyte concentration, which governs the diffusion flux (F diff), on the spatial distribution of LP. Note that the classical MP law only considers F diff through th… Show more

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Cited by 10 publications
(18 citation statements)
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“… 9 , 14 The regular-type LP generation can be observed in the CuCrO 4 system and many other precipitation systems. 9 , 14 20 However, when Pb 2+ is used instead of Cu 2+ as an outer electrolyte, exceptional LP can be formed, in which Δ x n decreases in contrast to the regular-type pattern, which is the so-called revert (invert) LP. 21 23 This difference was discussed from the perspective of the property of colloidal stability.…”
Section: Introductionmentioning
confidence: 99%
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“… 9 , 14 The regular-type LP generation can be observed in the CuCrO 4 system and many other precipitation systems. 9 , 14 20 However, when Pb 2+ is used instead of Cu 2+ as an outer electrolyte, exceptional LP can be formed, in which Δ x n decreases in contrast to the regular-type pattern, which is the so-called revert (invert) LP. 21 23 This difference was discussed from the perspective of the property of colloidal stability.…”
Section: Introductionmentioning
confidence: 99%
“…The periodicity of the typical LPs shows a general property, namely the distances of bands measured from the gel interface are the members of a geometric progression. This empirical rule is known as the spacing law 12 14 where n is the band number, x n and x n +1 , are the distance of the n th and ( n + 1)th bands measured from the interface between media containing M + and X – , and p is the spacing coefficient, which is constant at large values of n . Furthermore, the inter-band spacing (Δ x n ) deduced by the spacing law is given by …”
Section: Introductionmentioning
confidence: 99%
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“…The formation of the periodic zone was apparent at [KI] above 0.1 M on the line profile. A further increase in [KI] moved the position of the periodic band farther away from the interface, which is a general feature of Liesegang pattern formation. Two empirical rules, namely, a spacing law and the Matalon–Packter law, can be used to confirm that the observed periodic band may be classified as a Liesegang band. The spacing law implies that the distance, x n , from the interface to the n th band obeys the following relationship (eq ): where n and p are the band number and spacing coefficient, respectively.…”
Section: Resultsmentioning
confidence: 99%
“…One can notice that the distance between the two consecutive bands in both systems is greater once the concentration of the cations increases (Figure ). This is the manifestation of the Matalon–Packter law of the Liesegang system, namely, the spacing coefficient (defined as the ratio of distances of two consecutive bands measured from the gel–liquid interface) is linearly proportional to the concentration of the inner electrolyte (in this setup, the concentration of cations). …”
Section: Resultsmentioning
confidence: 99%