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Networking of Block Copolymer Nanoassemblies via Digital Light Processing Four-Dimensional Printing for Programmable Actuation

Houwen Matthew Pan, Jit Sarkar, Atsushi Goto

2022ACS Applied Polymer Materials19 citationsDOIOpen Access PDF

Abstract

Controls over stimuli-responsive functional materials and programmable shape deformations are key features in the four-dimensional (4D) printing of soft actuators. Instead of using random copolymers, homopolymers, or natural polymers, this paper reports the first use of amphiphilic, photocurable, and pH-responsive block copolymer (BCP) nanoassemblies in digital light processing (DLP) 4D printing to fabricate smart and programmable soft actuators. Programmable actuation was studied via a bottom-up approach: (1) designed synthesis of pH-responsive BCPs, (2) nanoassembly structures of BCPs, and (3) networking of nanoassemblies via the photocuring process in DLP. As a proof-of-concept, bilayered grippers, ring-shaped actuators, and octopus-like actuators were programmed to produce a range of bending angles and actuation patterns. pH-responsive BCP nanoassemblies were also combined with commercially available three-dimensional printing liquid resin (PlasClear) to produce stimulus-responsive printing ink that was successfully used for 4D printing applications. Thus, smart and programmable materials were developed for 4D printing applications.

Topics & Concepts

Digital Light ProcessingActuatorMaterials scienceDigital printingSoft roboticsCopolymer3D printingNanotechnologyPolymerComputer scienceComposite materialEngineeringEngineering drawingArtificial intelligenceProjectorAdvanced Materials and MechanicsBlock Copolymer Self-AssemblyMicro and Nano Robotics
Networking of Block Copolymer Nanoassemblies via Digital Light Processing Four-Dimensional Printing for Programmable Actuation | Litcius