4D printing of Liquid Metal-Reinforced Tough Hydrogel as Robotic Device. This project aims to develop advanced hydrogels—highly absorbent, shape-shifting polymeric materials—using cutting-edge 3D and

The University of Queensland — ARC Future Fellowships

Amount

Up to $1,155,446

Closes

Saturday 29 June 2030

Status

unknown

Type

open opportunity

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Description

4D printing of Liquid Metal-Reinforced Tough Hydrogel as Robotic Device. This project aims to develop advanced hydrogels—highly absorbent, shape-shifting polymeric materials—using cutting-edge 3D and 4D printing technologies. By integrating liquid metal particles into hydrogel networks, the project seeks to significantly enhance mechanical properties through innovative toughening mechanisms. Expected outcomes include the creation of robust, smart hydrogel-based robotic devices with programmable movements. This research will revolutionise hydrogel manufacturing, positioning Australia as a global leader in the field and driving innovation in key industries.. Scheme: ARC Future Fellowships. Field: 4016 - Materials Engineering. Lead: A/Prof Ruirui Qiao

Foundations Supporting This Area

Minderoo Foundation Limited as trustee for The Minderoo Foundation Trust

indigenousemploymentearly-childhood

$268.0M/yr

BHP Foundation

indigenouscommunityhuman_rights

$195.1M/yr

The University Of Queensland

educationresearchhealth

$87.2M/yr

Lowy Foundation

artscommunityresearch

$50.0M/yr

Swinburne University Of Technology

educationresearchtechnology

$49.0M/yr

Discovery method: arc-grants

Last verified: Monday 2 March 2026

Added: Saturday 28 February 2026