Bioinspired Structures for Soft Actuators

Abstract: biological energy into mechanical output. In addition to the actively controlled actuation behavior, plants also produce passive motions driven by the swelling and drying of cellulose materials on the cell walls under the ambient moisture change. [3] These cell-level actuators are shaped, assembled, and structured with other components hierarchically, determining their macroscopic actuation performance. From the mechanical point of view, the actuation behaviors are governed by the stress and strain distributio… Show more

“…Currently, fabrication methods such as casting, injection moulding and 3D printing, allow the realization of disparate soft structures. Nevertheless, the problems of precision, scalability, multi-material fabrication, and in some cases very complex inner structures have not found a definite solution yet ( Wei and Ghosh 2022 ). Sometimes, the difficulties encountered in manufacturing, especially where complex geometries and soft-to-rigid interfaces are involved, are really the limiting factor to a clear demonstration of a technology that works perfectly, but on simulation only.…”

Soft robotics in wearable and implantable medical applications: Translational challenges and future outlooks

“…Currently, fabrication methods such as casting, injection moulding and 3D printing, allow the realization of disparate soft structures. Nevertheless, the problems of precision, scalability, multi-material fabrication, and in some cases very complex inner structures have not found a definite solution yet ( Wei and Ghosh 2022 ). Sometimes, the difficulties encountered in manufacturing, especially where complex geometries and soft-to-rigid interfaces are involved, are really the limiting factor to a clear demonstration of a technology that works perfectly, but on simulation only.…”

Soft robotics in wearable and implantable medical applications: Translational challenges and future outlooks

“…This actuation is similar to the passive motions of some plants in nature. 46 For example, a pinecone can open and release seeds at low humidity conditions since its two macroscopic tissue layers present different hygroscopic swelling coefficients. 46,47 Optical images (Figure 3b) show the bending behavior of the GCP-10% film in different relative humidity (RH) conditions.…”

Enable Multi-Stimuli-Responsive Biomimetic Actuation with Asymmetric Design of Graphene-Conjugated Conductive Polymer Gradient Film

“…Similar to self-healing materials, many polymeric actuators resemble biological soft actuators that display a diversity of motion. 82 Indeed, both plants and animals possess complex actuation systems controlled mainly by two types of actuators, muscle cells for animals 83 and turgor-driven cells for plants, 84 that transform chemical energy into mechanical output. The muscle cells contract or stiffen when activated, while the turgor cells undergo volume expansion or shrinkage by autonomous or voluntary excitation.…”

“…Polymer actuators constitute a very important class of materials capable of modifying their shape in response to changes in the environment, such as temperature, pH, light, electrical/magnetic field, and/or chemical additives, among others. − A key challenge in this field is to develop robust actuators with programmable motion and high strain density. − Such materials would be easy to produce, mold, cut, and three-dimensional (3D) print while generating large macroscopic actuation at relatively low energy input. Similar to self-healing materials, many polymeric actuators resemble biological soft actuators that display a diversity of motion . Indeed, both plants and animals possess complex actuation systems controlled mainly by two types of actuators, muscle cells for animals and turgor-driven cells for plants, that transform chemical energy into mechanical output.…”

Self-Healing Polymeric Soft Actuators