Observation of continuous and quantized domain size and shape evolution in monolayers at air-water interface

Martin Weis; Ou Yang Wei; Tetsuya Yamamoto; Yohei Matsuoka; Takaaki Manaka; Mitsumasa Iwamoto

doi:10.1143/JJAP.50.051601

Observation of continuous and quantized domain size and shape evolution in monolayers at air-water interface

Martin Weis^*
, Ou Yang Wei
, Tetsuya Yamamoto
, Yohei Matsuoka
, Takaaki Manaka
, Mitsumasa Iwamoto

^*Corresponding author for this work

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

4 Scopus citations

Abstract

Langmuir monolayers of pentadecanoic acid (C15) and dipalmitoyl phosphatidylcholine (DPPC) are investigated in liquid expanded-liquid condensed (LE-LC) phase co-existence region in order to study evolution of circular and undulating LC domains. The Brewster angle microscopy is analyzed to evaluate LC domain size and shape for various average molecular areas. For C15 monolayer circular domain shape and continuous increase of domain size are observed. In contrast, for DPPC monolayer undulating domain shapes are observed, where the mode of oscillations m is quantized depending on the average molecular area. Surprisingly, also the average domain size is quantized and depends on m. These observations are discussed in accordance with the phase rule modified for the monolayer phase co-existence region and observed levels of domain sizes are compared with theories of m-fold distortion.

Original language	English
Article number	051601
Journal	Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers
Volume	50
Issue number	5 PART 1
DOIs	https://doi.org/10.1143/JJAP.50.051601
State	Published - May 2011
Externally published	Yes

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title = "Observation of continuous and quantized domain size and shape evolution in monolayers at air-water interface",

abstract = "Langmuir monolayers of pentadecanoic acid (C15) and dipalmitoyl phosphatidylcholine (DPPC) are investigated in liquid expanded-liquid condensed (LE-LC) phase co-existence region in order to study evolution of circular and undulating LC domains. The Brewster angle microscopy is analyzed to evaluate LC domain size and shape for various average molecular areas. For C15 monolayer circular domain shape and continuous increase of domain size are observed. In contrast, for DPPC monolayer undulating domain shapes are observed, where the mode of oscillations m is quantized depending on the average molecular area. Surprisingly, also the average domain size is quantized and depends on m. These observations are discussed in accordance with the phase rule modified for the monolayer phase co-existence region and observed levels of domain sizes are compared with theories of m-fold distortion.",

author = "Martin Weis and Wei, \{Ou Yang\} and Tetsuya Yamamoto and Yohei Matsuoka and Takaaki Manaka and Mitsumasa Iwamoto",

year = "2011",

month = may,

doi = "10.1143/JJAP.50.051601",

language = "英语",

volume = "50",

journal = "Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers",

issn = "0021-4922",

publisher = "Institute of Physics",

number = "5 PART 1",

}

Observation of continuous and quantized domain size and shape evolution in monolayers at air-water interface. / Weis, Martin; Wei, Ou Yang; Yamamoto, Tetsuya et al.
In: Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers, Vol. 50, No. 5 PART 1, 051601, 05.2011.

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

TY - JOUR

T1 - Observation of continuous and quantized domain size and shape evolution in monolayers at air-water interface

AU - Weis, Martin

AU - Wei, Ou Yang

AU - Yamamoto, Tetsuya

AU - Matsuoka, Yohei

AU - Manaka, Takaaki

AU - Iwamoto, Mitsumasa

PY - 2011/5

Y1 - 2011/5

N2 - Langmuir monolayers of pentadecanoic acid (C15) and dipalmitoyl phosphatidylcholine (DPPC) are investigated in liquid expanded-liquid condensed (LE-LC) phase co-existence region in order to study evolution of circular and undulating LC domains. The Brewster angle microscopy is analyzed to evaluate LC domain size and shape for various average molecular areas. For C15 monolayer circular domain shape and continuous increase of domain size are observed. In contrast, for DPPC monolayer undulating domain shapes are observed, where the mode of oscillations m is quantized depending on the average molecular area. Surprisingly, also the average domain size is quantized and depends on m. These observations are discussed in accordance with the phase rule modified for the monolayer phase co-existence region and observed levels of domain sizes are compared with theories of m-fold distortion.

AB - Langmuir monolayers of pentadecanoic acid (C15) and dipalmitoyl phosphatidylcholine (DPPC) are investigated in liquid expanded-liquid condensed (LE-LC) phase co-existence region in order to study evolution of circular and undulating LC domains. The Brewster angle microscopy is analyzed to evaluate LC domain size and shape for various average molecular areas. For C15 monolayer circular domain shape and continuous increase of domain size are observed. In contrast, for DPPC monolayer undulating domain shapes are observed, where the mode of oscillations m is quantized depending on the average molecular area. Surprisingly, also the average domain size is quantized and depends on m. These observations are discussed in accordance with the phase rule modified for the monolayer phase co-existence region and observed levels of domain sizes are compared with theories of m-fold distortion.

UR - https://www.scopus.com/pages/publications/79957605254

U2 - 10.1143/JJAP.50.051601

DO - 10.1143/JJAP.50.051601

M3 - 文章

AN - SCOPUS:79957605254

SN - 0021-4922

VL - 50

JO - Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers

JF - Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers

IS - 5 PART 1

M1 - 051601

ER -

Observation of continuous and quantized domain size and shape evolution in monolayers at air-water interface

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