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Advanced Materials, EarlyView.Harnessing the synergistic interplay of supramolecular self‐assembly, under macromolecular crowding conditions, and enzymatic‐mediated covalent crosslinking toward a stable protein‐based G‐quadruplex‐derived supramolecular bioink. This bioinspired strategy enables the biofabrication of complex and tunable ECM‐mimetic constructs, providing a platform ...
Vera Sousa +6 more
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Advanced Materials, EarlyView.Metasurface‐engineered NC‐TENG arrays integrate tactile pressure mapping, non‐contact gesture sensing, and acoustic signal readouts in one ultrathin module, and outperforms pristine PDMS in terms of electrical output and real‐time spatial mapping for next‐gen wearables.
Injamamul Arief +12 more
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Actuation of Cell Layers in Three Dimensions
Advanced Materials, EarlyView.ABSTRACT The alignment of fibers and cells in living tissues affect their mechanical properties and functionality. In this context, one can draw an analogy between tissues and nematic liquid crystal elastomers. We explore this analogy by growing fibroblasts on 2D‐patterned substrates and observing the contraction of cell sheets upon detachment from the
Kirsten Endresen +6 more
wiley +1 more source
Rubbery Electronics Fully Made of Stretchable Elastomeric Electronic Materials
Advanced Materials, 2020 Stretchable electronics outperform existing rigid and bulky electronics and benefit a wide range of species, including humans, machines, and robots, whose activities are associated with large mechanical deformation and strain.
Kyoseung Sim +2 more
exaly +2 more sources
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Multiple pathways to stretchable electronics
Science, 2022Stretchable conductors expand the interfaces with biological ...
Tarek, Rafeedi, Darren J, Lipomi
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Energy Harvesters for Wearable and Stretchable Electronics: From Flexibility to Stretchability
Advanced Materials, 2016The rapid advancements of wearable electronics have caused a paradigm shift in consumer electronics, and the emerging development of stretchable electronics opens a new spectrum of applications for electronic systems. Playing a critical role as the power sources for independent electronic systems, energy harvesters with high flexibility or ...
Hao Wu, Yongan Huang, Yongqing Duan
exaly +3 more sources
Advanced Functional Materials, 2023 Researchers are eagerly developing various stretchable conductors to fabricate devices for next-generation electronics. Most of the major problems in stretchable electronics happen at the connection between rigid and soft parts and the development of ...
Jung Jae Park, Seung Hwan Ko
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An Overstretch Strategy to Double the Designed Elastic Stretchability of Stretchable Electronics
Advanced Materials, 2023AbstractAchieving or enhancing the elastic stretchability of inorganic stretchable electronics is critically significant. However, only two types of fundamental strategies—using the prestrained elastic substrate and designing the geometric layouts—are exploited thus far.
Juyao Li, Xiaolei Wu, Yewang Su
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Mechanics of stretchable electronics
Current Opinion in Solid State and Materials Science, 2015Abstract Recent advances in mechanics and materials provide routes to develop stretchable electronics that offer performance of conventional wafer-based devices but with the ability to be deformed to arbitrary shape. Many new applications become possible ranging from electronic eye cameras to wearable electronics, to bio-integrated therapeutic ...
Jizhou Song
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