Photothermal patterning of polydimethylsiloxane

Jacklyn A. DiPietro; Bellamarie Ludwig; Benjamin J. Lear

doi:10.1039/d5lp00093a

Photothermal patterning of polydimethylsiloxane

Jacklyn A. DiPietro
, Bellamarie Ludwig
, Benjamin J. Lear

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

Abstract

The surface patterning of polymers is an important approach to enhancing material properties for a large variety of applications. Due to the formation of irreversible crosslinks however, thermoset polymers tend to be challenging to pattern. In this paper we present a novel method of patterning a commonly used thermoset polymer, polydimethylsiloxane (PDMS), through controlled photothermal curing. We show that by incorporating 0.05% carbon black by weight into PDMS and moving a continuous wave-based laser engraver over the surface in a snake pattern, we can photothermally generate micron-scale surface features, and that these patterns can be controlled through laser parameters. Finally, we show that the photothermally patterned PDMS surfaces undergo changes in the optical properties as a result of patterning.

Original language	English (US)
Pages (from-to)	1269-1277
Number of pages	9
Journal	RSC Applied Polymers
Volume	3
Issue number	5
DOIs	https://doi.org/10.1039/d5lp00093a
State	Published - Sep 18 2025

All Science Journal Classification (ASJC) codes

Materials Science (miscellaneous)
Surfaces, Coatings and Films
Polymers and Plastics
Materials Chemistry

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10.1039/d5lp00093a

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title = "Photothermal patterning of polydimethylsiloxane",

abstract = "The surface patterning of polymers is an important approach to enhancing material properties for a large variety of applications. Due to the formation of irreversible crosslinks however, thermoset polymers tend to be challenging to pattern. In this paper we present a novel method of patterning a commonly used thermoset polymer, polydimethylsiloxane (PDMS), through controlled photothermal curing. We show that by incorporating 0.05\% carbon black by weight into PDMS and moving a continuous wave-based laser engraver over the surface in a snake pattern, we can photothermally generate micron-scale surface features, and that these patterns can be controlled through laser parameters. Finally, we show that the photothermally patterned PDMS surfaces undergo changes in the optical properties as a result of patterning.",

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AU - DiPietro, Jacklyn A.

AU - Ludwig, Bellamarie

AU - Lear, Benjamin J.

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Y1 - 2025/9/18

N2 - The surface patterning of polymers is an important approach to enhancing material properties for a large variety of applications. Due to the formation of irreversible crosslinks however, thermoset polymers tend to be challenging to pattern. In this paper we present a novel method of patterning a commonly used thermoset polymer, polydimethylsiloxane (PDMS), through controlled photothermal curing. We show that by incorporating 0.05% carbon black by weight into PDMS and moving a continuous wave-based laser engraver over the surface in a snake pattern, we can photothermally generate micron-scale surface features, and that these patterns can be controlled through laser parameters. Finally, we show that the photothermally patterned PDMS surfaces undergo changes in the optical properties as a result of patterning.

AB - The surface patterning of polymers is an important approach to enhancing material properties for a large variety of applications. Due to the formation of irreversible crosslinks however, thermoset polymers tend to be challenging to pattern. In this paper we present a novel method of patterning a commonly used thermoset polymer, polydimethylsiloxane (PDMS), through controlled photothermal curing. We show that by incorporating 0.05% carbon black by weight into PDMS and moving a continuous wave-based laser engraver over the surface in a snake pattern, we can photothermally generate micron-scale surface features, and that these patterns can be controlled through laser parameters. Finally, we show that the photothermally patterned PDMS surfaces undergo changes in the optical properties as a result of patterning.

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JO - RSC Applied Polymers

JF - RSC Applied Polymers

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Photothermal patterning of polydimethylsiloxane

Abstract

All Science Journal Classification (ASJC) codes

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