Programmable morphing hydrogels for soft actuators and robots: from structure designs to active functions
D Jiao, QL Zhu, CY Li, Q Zheng… - Accounts of Chemical …, 2022 - ACS Publications
Conspectus Nature provides abundant inspiration and elegant paradigms for the
development of smart materials that can actuate, morph, and move on demand. One …
development of smart materials that can actuate, morph, and move on demand. One …
Recent advances in stimuli‐responsive shape‐morphing hydrogels
Inspired by shape‐morphing organisms in nature, researchers have developed various
hydrogels with stimuli‐responsive swelling, shrinking, bending, folding, origami, rolling …
hydrogels with stimuli‐responsive swelling, shrinking, bending, folding, origami, rolling …
Programmable nanocomposites of cellulose nanocrystals and zwitterionic hydrogels for soft robotics
Stimuli-responsive hydrogels have garnered significant attention as a versatile class of soft
actuators. Introducing anisotropic properties, and shape-change programmability to …
actuators. Introducing anisotropic properties, and shape-change programmability to …
Biomimetic anisotropic hydrogels: Advanced fabrication strategies, extraordinary functionalities, and broad applications
MTI Mredha, I Jeon - Progress in Materials Science, 2022 - Elsevier
A variety of soft, hydrogel-like materials with sophisticated micro-and nanoengineered
ordered structures that offer excellent functionalities exist in nature. Conventional synthetic …
ordered structures that offer excellent functionalities exist in nature. Conventional synthetic …
Materials as machines
Abstract Machines are systems that harness input power to extend or advance function.
Fundamentally, machines are based on the integration of materials with mechanisms to …
Fundamentally, machines are based on the integration of materials with mechanisms to …
Reversibly transforming a highly swollen polyelectrolyte hydrogel to an extremely tough one and its application as a tubular grasper
Abstract Poly (2‐acrylamido‐2‐methyl‐1‐propanesulfonic acid) and its copolymer hydrogels
are typical polyelectrolyte gels with extremely high swelling capacity that are widely used in …
are typical polyelectrolyte gels with extremely high swelling capacity that are widely used in …
Bioinspired synergistic fluorescence‐color‐switchable polymeric hydrogel actuators
S Wei, W Lu, X Le, C Ma, H Lin, B Wu… - Angewandte …, 2019 - Wiley Online Library
Many living organisms have amazing control over their color, shape, and morphology for
camouflage, communication, and even reproduction in response to interplay between …
camouflage, communication, and even reproduction in response to interplay between …
Asymmetric elastoplasticity of stacked graphene assembly actualizes programmable untethered soft robotics
There is ever-increasing interest yet grand challenge in developing programmable
untethered soft robotics. Here we address this challenge by applying the asymmetric …
untethered soft robotics. Here we address this challenge by applying the asymmetric …
Spontaneous and rapid electro-actuated snapping of constrained polyelectrolyte hydrogels
Venus flytrap and bladderwort, capable of rapid predation through a snapping transition,
have inspired various designs of soft actuators and robots with fast actions. These designs …
have inspired various designs of soft actuators and robots with fast actions. These designs …
Bioinspired simultaneous changes in fluorescence color, brightness, and shape of hydrogels enabled by AIEgens
Abstract Development of stimuli‐responsive materials with complex practical functions is
significant for achieving bioinspired artificial intelligence. It is challenging to fabricate stimuli …
significant for achieving bioinspired artificial intelligence. It is challenging to fabricate stimuli …