Direct visualization of phase transition dynamics in binary supported phospholipid bilayers using imaging ellipsometry

Alan W. Szmodis; Craig D. Blanchette; Andrey A. Levchenko; Alexandra Navrotsky; Marjorie L. Longo; Christine A. Orme; Atul N. Parikh

doi:10.1039/b801390j

Direct visualization of phase transition dynamics in binary supported phospholipid bilayers using imaging ellipsometry

Alan W. Szmodis
, Craig D. Blanchette
, Andrey A. Levchenko
, Alexandra Navrotsky
, Marjorie L. Longo
, Christine A. Orme
, Atul N. Parikh

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

16 Scopus citations

Abstract

Via imaging ellipsometry, we study the phase transition dynamics induced by selective gelation of one component in a binary supported phopholipid bilayer. We find the modulation of two attendant morphological features: emergence of extended defect chains due to a net change in the molecular areas and fractal-like domains suggesting weak line tension. A time-lapse analysis of the ellipsometric images reveals the cluster size of 4-20 molecules undergoing gelation indicating weak cooperativity. These results demonstrate the use of ellipsometry for in situ, label-free, non-contact, and large-area imaging of dynamics in interfacial films.

Original language	English (US)
Pages (from-to)	1161-1164
Number of pages	4
Journal	Soft Matter
Volume	4
Issue number	6
DOIs	https://doi.org/10.1039/b801390j
State	Published - 2008
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
Condensed Matter Physics

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@article{8551ac1300e740a48cb4a6b08b0c57b6,

title = "Direct visualization of phase transition dynamics in binary supported phospholipid bilayers using imaging ellipsometry",

abstract = "Via imaging ellipsometry, we study the phase transition dynamics induced by selective gelation of one component in a binary supported phopholipid bilayer. We find the modulation of two attendant morphological features: emergence of extended defect chains due to a net change in the molecular areas and fractal-like domains suggesting weak line tension. A time-lapse analysis of the ellipsometric images reveals the cluster size of 4-20 molecules undergoing gelation indicating weak cooperativity. These results demonstrate the use of ellipsometry for in situ, label-free, non-contact, and large-area imaging of dynamics in interfacial films.",

author = "Szmodis, \{Alan W.\} and Blanchette, \{Craig D.\} and Levchenko, \{Andrey A.\} and Alexandra Navrotsky and Longo, \{Marjorie L.\} and Orme, \{Christine A.\} and Parikh, \{Atul N.\}",

year = "2008",

doi = "10.1039/b801390j",

language = "English (US)",

volume = "4",

pages = "1161--1164",

journal = "Soft Matter",

issn = "1744-683X",

publisher = "Royal Society of Chemistry",

number = "6",

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TY - JOUR

T1 - Direct visualization of phase transition dynamics in binary supported phospholipid bilayers using imaging ellipsometry

AU - Szmodis, Alan W.

AU - Blanchette, Craig D.

AU - Levchenko, Andrey A.

AU - Navrotsky, Alexandra

AU - Longo, Marjorie L.

AU - Orme, Christine A.

AU - Parikh, Atul N.

PY - 2008

Y1 - 2008

N2 - Via imaging ellipsometry, we study the phase transition dynamics induced by selective gelation of one component in a binary supported phopholipid bilayer. We find the modulation of two attendant morphological features: emergence of extended defect chains due to a net change in the molecular areas and fractal-like domains suggesting weak line tension. A time-lapse analysis of the ellipsometric images reveals the cluster size of 4-20 molecules undergoing gelation indicating weak cooperativity. These results demonstrate the use of ellipsometry for in situ, label-free, non-contact, and large-area imaging of dynamics in interfacial films.

AB - Via imaging ellipsometry, we study the phase transition dynamics induced by selective gelation of one component in a binary supported phopholipid bilayer. We find the modulation of two attendant morphological features: emergence of extended defect chains due to a net change in the molecular areas and fractal-like domains suggesting weak line tension. A time-lapse analysis of the ellipsometric images reveals the cluster size of 4-20 molecules undergoing gelation indicating weak cooperativity. These results demonstrate the use of ellipsometry for in situ, label-free, non-contact, and large-area imaging of dynamics in interfacial films.

UR - https://www.scopus.com/pages/publications/43749098335

UR - https://www.scopus.com/pages/publications/43749098335#tab=citedBy

U2 - 10.1039/b801390j

DO - 10.1039/b801390j

M3 - Article

SN - 1744-683X

VL - 4

SP - 1161

EP - 1164

JO - Soft Matter

JF - Soft Matter

IS - 6

ER -

Direct visualization of phase transition dynamics in binary supported phospholipid bilayers using imaging ellipsometry

Abstract

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