2022
DOI: 10.1002/adfm.202210353
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The Design of 4D‐Printed Hygromorphs: State‐of‐the‐Art and Future Challenges

Abstract: In recent years, 4D printing has allowed the rapid development of new concepts of multifunctional/adaptive structures. The 4D printing technology makes it possible to generate new shapes and/or property-changing capabilities by combining smart materials, multiphysics stimuli, and additive manufacturing. Hygromorphs constitute a specific class of new smart materials where their properties and morphing capabilities are dependent on the surrounding humidity, which drives actuation. Although multiple efforts have … Show more

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Cited by 22 publications
(10 citation statements)
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References 350 publications
(582 reference statements)
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“…[ 40 ] The use of active materials, which deform under certain conditions, is commonly referred to as 4D printing. [ 41–43 ] Thus, we call the self‐folding electrodes “4D electrodes”. Our devices consist of a bilayer structure, comprising of a non‐swelling flexible material and a highly swelling hydrogel on its backside as the substrate.…”
Section: Resultsmentioning
confidence: 99%
“…[ 40 ] The use of active materials, which deform under certain conditions, is commonly referred to as 4D printing. [ 41–43 ] Thus, we call the self‐folding electrodes “4D electrodes”. Our devices consist of a bilayer structure, comprising of a non‐swelling flexible material and a highly swelling hydrogel on its backside as the substrate.…”
Section: Resultsmentioning
confidence: 99%
“…By harnessing the power of humidity, these products can offer enhanced user experiences, improved sustainability, and a broader range of applications in various industries. [165] The main focus of 4DP is to integrate a specific morphing function by controlling the material properties and architecture. Le Duigou et al [166] looked into the possibility of customizing continuous flax-fiber (CFF) 4DP for hygromorph biocomposite (HBC), opening up possibilities for creating environmentally friendly metamaterials that could change shape in a sequential manner.…”
Section: Wood-based Productsmentioning
confidence: 99%
“…By harnessing the power of humidity, these products can offer enhanced user experiences, improved sustainability, and a broader range of applications in various industries. [ 165 ]…”
Section: Fff 4dpmentioning
confidence: 99%
See 1 more Smart Citation
“…Stimuli-responsive materials are programmable materials, which exhibit the potential to change their geometries from temporary states to original states in response to an external stimulation such as moisture, light, heat, pH, electric field, and magnetic field. [83][84][85][86] These materials exhibit a variety of features such as self-folding, self-assembly, and self-adaptability. [87] In addition, self-healing properties can be easily induced in soft responsible materials.…”
Section: Stimuli-responsive Materialsmentioning
confidence: 99%