Two-Photon Polymerization of Sugar Responsive 4D Microstructures

Loading...
Thumbnail Image

Date

Journal Title

Journal ISSN

Volume Title

Publisher

Access

openAccess

Embargo end date

Citation

Alexa Ennis, Deanna Nicdao, Srikanth Kolagatla, Luke Dowling, Yekaterina Tskhe, Alex J. Thompson, Daniel Trimble, Colm Delaney, Larisa Florea, Two-Photon Polymerization of Sugar Responsive 4D Microstructures, Advanced Functional Materials, 2023

Abstract

Stimuli-responsive hydrogels have attracted much attention owing to the versatility of their programmed response in offering intelligent solutions for biomimicry applications, such as soft robotics, tissue engineering, and drug delivery. To achieve the complexity of biomimetic structures, two photon polymerization (2PP) has provided a means of fabricating intricate 3D structures from stimuli-responsive hydrogels. Rapid swelling hydrogel microstructures are advantageous for osmotically driven stimuli-response, where actuation speed, that is reliant on the diffusion of analytes or bioanalytes, can be optimized. Herein, the flexibility of 2PP is exploited to showcase a novel sugar-responsive, phenylboronic acid-based photoresist. This offers a remarkable solution for achieving fast response hydrogel systems that have been often hindered by the volume-dependent diffusion times of analytes to receptor sites. A phenylboronic acid-based photoresist compatible with 2PP is presented to fabricate stimuli-responsive microstructures with accelerated response times. Moreover, microstructures with programmable actuation (i.e., bending and opening) are fabricated using the same photoresist within a one-step fabrication process. By combining the flexibility of 2PP with an easily adaptable photoresist, an accessible fabrication method is showcased for sophisticated and chemo-responsive 3D hydrogel actuators.

Description

PUBLISHED

Endorsement

Review

Supplemented By

Referenced By

Sponsor: Irish Research Council (IRC)
Grant Number: GOIPD/2020/484

Sponsor: Engineering and Physical Sciences Research Council (EPSRC)
Grant Number: EP/S023259/1

Sponsor: European Commission
Grant Number: 899349

Sponsor: European Research Council (ERC)
Grant Number: 802929

Sponsor: Science Foundation Ireland (SFI)
Grant Number: 18/EPSRC-CDT-3581

Sponsor: Engineering and Physical Sciences Research Council (EPSRC)
Grant Number: 18/EPSRC-CDT-3581

Sponsor: Science Foundation Ireland (SFI)
Grant Number: 12/RC/2278_P2

Author's Homepage: http://people.tcd.ie/floreal
Type of material: Journal Article