Two‐Photon Direct Laser Writing of pNIPAM Actuators in Microchannels for Dynamic Microfluidics

Chantal Barwig; Annabelle Sonn; Tobias Spratte; Ankit Mishra; Eva Blasco; Christine Selhuber‐Unkel; Sadaf Pashapour

doi:10.1002/aisy.202300829

Advanced Intelligent Systems (Jul 2024)

Two‐Photon Direct Laser Writing of pNIPAM Actuators in Microchannels for Dynamic Microfluidics

Chantal Barwig,
Annabelle Sonn,
Tobias Spratte,
Ankit Mishra,
Eva Blasco,
Christine Selhuber‐Unkel,
Sadaf Pashapour

Affiliations

Chantal Barwig: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany
Annabelle Sonn: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany
Tobias Spratte: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany
Ankit Mishra: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany
Eva Blasco: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany
Christine Selhuber‐Unkel: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany
Sadaf Pashapour: Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 69120 Heidelberg Germany

DOI: https://doi.org/10.1002/aisy.202300829
Journal volume & issue: Vol. 6, no. 7
pp. n/a – n/a

Abstract

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Microfluidic tools enable to investigate and manipulate various chemical and biological processes at small scales. As a result, it finds widespread applications in lab‐on‐chip devices, drug delivery systems, or miniaturized cell cultures. However, microfluidic devices are still limited in their flexibility and are often designed to fulfill a single functionality. Moreover, technologies to introduce dynamic functionalities with high precision and at high resolution after the development of a continuous phase microfluidic chip remain scarce. Herein, two‐photon polymerization direct laser writing is introduced as a suitable approach to equip continuous phase microfluidic chips with structurally defined thermoresponsive poly(N‐isopropyl‐acrylamide) (pNIPAM) microactuators. Harnessing the lower critical phase transition temperature of pNIPAM, and upon controlling specific design parameters, the efficient catch and release of polystyrene beads of different sizes using a pNIPAM micropillar brush array is demonstrated. Moreover, a biocompatible pNIPAM microgripper array is designed to subsequently capture and release differently sized (single) cell populations. Overall, the method offers great flexibility and a high degree of freedom toward the fabrication of dynamic microfluidic devices with great adaptability to experimental conditions in real time.

Published in Advanced Intelligent Systems

ISSN: 2640-4567 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics: Computer engineering. Computer hardware; Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://onlinelibrary.wiley.com/journal/26404567

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