Langmuir monolayer characterization via polymer microtensiometers

Pieter Gijsenbergh; Martina Pepicelli; Christopher L Wirth; Jan Vermant; Robert Puers

doi:10.1016/j.sna.2015.03.041

Langmuir monolayer characterization via polymer microtensiometers

Pieter Gijsenbergh
, Martina Pepicelli
, Christopher L Wirth
, Jan Vermant
, Robert Puers

Chemical and Biomedical Engineering

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

5 Scopus citations

Abstract

A semi-rigid, semi-flexible SU-8 polymer microdevice was designed to measure changes in interfacial tension at an air-water interface. The suspended microtensiometer enclosed a clean air-water interface, with an insoluble surfactant on the exterior. The difference in surface tension between the inside and the outside of the device, called the surface pressure, caused the 850 μm by 3 mm device to deflect. Finite element simulations were performed to predict device behavior prior to fabrication. Finished devices were tested in a Langmuir trough during multiple compression and expansion cycles using large area changes and slow compression speeds. Shorter experiments subjecting the interface to rapid local monolayer concentration variations were also performed. A platinum Wilhelmy plate was used as an independent surface pressure measurement. The microtensiometer had a theoretical resolution of 0.02 mN m^-1.

Original language	English
Pages (from-to)	110-117
Number of pages	8
Journal	Sensors and Actuators, A: Physical
Volume	229
DOIs	https://doi.org/10.1016/j.sna.2015.03.041
State	Published - Jun 15 2015

Keywords

Langmuir monolayers
MEMS
SU-8
Surface pressure
Tensiometry

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10.1016/j.sna.2015.03.041

Cite this

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title = "Langmuir monolayer characterization via polymer microtensiometers",

abstract = "A semi-rigid, semi-flexible SU-8 polymer microdevice was designed to measure changes in interfacial tension at an air-water interface. The suspended microtensiometer enclosed a clean air-water interface, with an insoluble surfactant on the exterior. The difference in surface tension between the inside and the outside of the device, called the surface pressure, caused the 850 μm by 3 mm device to deflect. Finite element simulations were performed to predict device behavior prior to fabrication. Finished devices were tested in a Langmuir trough during multiple compression and expansion cycles using large area changes and slow compression speeds. Shorter experiments subjecting the interface to rapid local monolayer concentration variations were also performed. A platinum Wilhelmy plate was used as an independent surface pressure measurement. The microtensiometer had a theoretical resolution of 0.02 mN m-1.",

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AU - Gijsenbergh, Pieter

AU - Pepicelli, Martina

AU - Wirth, Christopher L

AU - Vermant, Jan

AU - Puers, Robert

PY - 2015/6/15

Y1 - 2015/6/15

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AB - A semi-rigid, semi-flexible SU-8 polymer microdevice was designed to measure changes in interfacial tension at an air-water interface. The suspended microtensiometer enclosed a clean air-water interface, with an insoluble surfactant on the exterior. The difference in surface tension between the inside and the outside of the device, called the surface pressure, caused the 850 μm by 3 mm device to deflect. Finite element simulations were performed to predict device behavior prior to fabrication. Finished devices were tested in a Langmuir trough during multiple compression and expansion cycles using large area changes and slow compression speeds. Shorter experiments subjecting the interface to rapid local monolayer concentration variations were also performed. A platinum Wilhelmy plate was used as an independent surface pressure measurement. The microtensiometer had a theoretical resolution of 0.02 mN m-1.

KW - Langmuir monolayers

KW - MEMS

KW - SU-8

KW - Surface pressure

KW - Tensiometry

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Langmuir monolayer characterization via polymer microtensiometers

Abstract

Keywords

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