Polarization and surface density dependence of pyrenehexadecanoic acid at the air-water interface under compression studied by a laser two-photon ionization technique

Miki Sato; Hiromi Akagishi; Akira Harata; Teiichiro Ogawa

doi:10.1021/la010673a

Polarization and surface density dependence of pyrenehexadecanoic acid at the air-water interface under compression studied by a laser two-photon ionization technique

Miki Sato, Hiromi Akagishi, Akira Harata, Teiichiro Ogawa

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

3 Citations (Scopus)

Abstract

Orientation of pyrenehexadecanoic acid (PyHA) on the water surface has been investigated using surface compression, fluorescence spectra, and two-photon ionization measurements. PyHA stays as a monomer at surface densities lower than 0.025 nmol/cm², while at high surface densities excimer emission was observed. The two-photon ionization signal had a peak at 90° (p-polarized laser beam) upon the rotation of the polarization of the incident laser beam. The difference in the signal intensity generated by p-polarized and s-polarized lights became smaller as surface density increased. It is suggested that the tilt angle of the transition moment of the pyrene ring is ca. 70° at a low surface density, and it increases with the surface density increase. Problems in determining orientation of the molecules on water are discussed.

Original language	English
Pages (from-to)	8167-8171
Number of pages	5
Journal	Langmuir
Volume	17
Issue number	26
DOIs	https://doi.org/10.1021/la010673a
Publication status	Published - Dec 25 2001

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Surfaces and Interfaces
Spectroscopy
Electrochemistry

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10.1021/la010673a

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title = "Polarization and surface density dependence of pyrenehexadecanoic acid at the air-water interface under compression studied by a laser two-photon ionization technique",

abstract = "Orientation of pyrenehexadecanoic acid (PyHA) on the water surface has been investigated using surface compression, fluorescence spectra, and two-photon ionization measurements. PyHA stays as a monomer at surface densities lower than 0.025 nmol/cm2, while at high surface densities excimer emission was observed. The two-photon ionization signal had a peak at 90° (p-polarized laser beam) upon the rotation of the polarization of the incident laser beam. The difference in the signal intensity generated by p-polarized and s-polarized lights became smaller as surface density increased. It is suggested that the tilt angle of the transition moment of the pyrene ring is ca. 70° at a low surface density, and it increases with the surface density increase. Problems in determining orientation of the molecules on water are discussed.",

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T1 - Polarization and surface density dependence of pyrenehexadecanoic acid at the air-water interface under compression studied by a laser two-photon ionization technique

AU - Sato, Miki

AU - Akagishi, Hiromi

AU - Harata, Akira

AU - Ogawa, Teiichiro

PY - 2001/12/25

Y1 - 2001/12/25

N2 - Orientation of pyrenehexadecanoic acid (PyHA) on the water surface has been investigated using surface compression, fluorescence spectra, and two-photon ionization measurements. PyHA stays as a monomer at surface densities lower than 0.025 nmol/cm2, while at high surface densities excimer emission was observed. The two-photon ionization signal had a peak at 90° (p-polarized laser beam) upon the rotation of the polarization of the incident laser beam. The difference in the signal intensity generated by p-polarized and s-polarized lights became smaller as surface density increased. It is suggested that the tilt angle of the transition moment of the pyrene ring is ca. 70° at a low surface density, and it increases with the surface density increase. Problems in determining orientation of the molecules on water are discussed.

AB - Orientation of pyrenehexadecanoic acid (PyHA) on the water surface has been investigated using surface compression, fluorescence spectra, and two-photon ionization measurements. PyHA stays as a monomer at surface densities lower than 0.025 nmol/cm2, while at high surface densities excimer emission was observed. The two-photon ionization signal had a peak at 90° (p-polarized laser beam) upon the rotation of the polarization of the incident laser beam. The difference in the signal intensity generated by p-polarized and s-polarized lights became smaller as surface density increased. It is suggested that the tilt angle of the transition moment of the pyrene ring is ca. 70° at a low surface density, and it increases with the surface density increase. Problems in determining orientation of the molecules on water are discussed.

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Polarization and surface density dependence of pyrenehexadecanoic acid at the air-water interface under compression studied by a laser two-photon ionization technique

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