In-Situ Monitoring Of Monolayer Formation On Chemically Oscillating Oil/Liquid Interface By Quasielastic Laser Scattering

Satoshi Takahashi; Akira Harata; Takehiko Kitamori; Tsuguo Sawada

doi:10.2116/analsci.7.Supple_645

In-Situ Monitoring Of Monolayer Formation On Chemically Oscillating Oil/Liquid Interface By Quasielastic Laser Scattering

Satoshi Takahashi, Akira Harata, Takehiko Kitamori, Tsuguo Sawada

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

8 Citations (Scopus)

Abstract

A quasielastic laser scattering method was applied to monitoring the oil/water interface of chemical oscillation. Interfacial capillary wave (ripplon) frequencies were measured to estimate the change of interfacial tension during the electric potential oscillation. According to the conventional model of this chemical oscillation, a change in interfacial tension occurs due to formation and disappearance processes of a monolayer at the interface. However, no significant change in the interfacial tensions was detected from the ripplon frequency before and after the potential pulse generation.

Original language	English
Pages (from-to)	645-648
Number of pages	4
Journal	analytical sciences
Volume	7
DOIs	https://doi.org/10.2116/analsci.7.Supple_645
Publication status	Published - Jan 1991
Externally published	Yes

All Science Journal Classification (ASJC) codes

Analytical Chemistry

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10.2116/analsci.7.Supple_645

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title = "In-Situ Monitoring Of Monolayer Formation On Chemically Oscillating Oil/Liquid Interface By Quasielastic Laser Scattering",

abstract = "A quasielastic laser scattering method was applied to monitoring the oil/water interface of chemical oscillation. Interfacial capillary wave (ripplon) frequencies were measured to estimate the change of interfacial tension during the electric potential oscillation. According to the conventional model of this chemical oscillation, a change in interfacial tension occurs due to formation and disappearance processes of a monolayer at the interface. However, no significant change in the interfacial tensions was detected from the ripplon frequency before and after the potential pulse generation.",

author = "Satoshi Takahashi and Akira Harata and Takehiko Kitamori and Tsuguo Sawada",

year = "1991",

month = jan,

doi = "10.2116/analsci.7.Supple_645",

language = "English",

volume = "7",

pages = "645--648",

journal = "analytical sciences",

issn = "0910-6340",

publisher = "The Japan Society for Analytical Chemistry",

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T1 - In-Situ Monitoring Of Monolayer Formation On Chemically Oscillating Oil/Liquid Interface By Quasielastic Laser Scattering

AU - Takahashi, Satoshi

AU - Harata, Akira

AU - Kitamori, Takehiko

AU - Sawada, Tsuguo

PY - 1991/1

Y1 - 1991/1

N2 - A quasielastic laser scattering method was applied to monitoring the oil/water interface of chemical oscillation. Interfacial capillary wave (ripplon) frequencies were measured to estimate the change of interfacial tension during the electric potential oscillation. According to the conventional model of this chemical oscillation, a change in interfacial tension occurs due to formation and disappearance processes of a monolayer at the interface. However, no significant change in the interfacial tensions was detected from the ripplon frequency before and after the potential pulse generation.

AB - A quasielastic laser scattering method was applied to monitoring the oil/water interface of chemical oscillation. Interfacial capillary wave (ripplon) frequencies were measured to estimate the change of interfacial tension during the electric potential oscillation. According to the conventional model of this chemical oscillation, a change in interfacial tension occurs due to formation and disappearance processes of a monolayer at the interface. However, no significant change in the interfacial tensions was detected from the ripplon frequency before and after the potential pulse generation.

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U2 - 10.2116/analsci.7.Supple_645

DO - 10.2116/analsci.7.Supple_645

M3 - Article

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SN - 0910-6340

VL - 7

SP - 645

EP - 648

JO - analytical sciences

JF - analytical sciences

ER -

In-Situ Monitoring Of Monolayer Formation On Chemically Oscillating Oil/Liquid Interface By Quasielastic Laser Scattering

Abstract

All Science Journal Classification (ASJC) codes

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