A tough biocompatible hydrogel having one or more drug delivery components, deformable conductors, and/or rigid electronic components incorporated therein in such a way that robust interfaces are formed between the hydrogel and the various components. The resulting hydrogel device provides a highly ...
Publisher’s noteSpringer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. About this article Cite this article Arwani, R.T., Tan, S.C.L., Sundarapandi, A.et al.Stretchable ionic–electronic bilayer hydrogel electronics enable in situ det...
Mechanically interlocked hydrogel–elastomer hybrids for on-skin electronics. Adv. Funct. Mater. 30, 1909540 (2020). Google Scholar Zheng, S. et al. Moisture-wicking, breathable, and intrinsically antibacterial electronic skin based on dual-gradient poly(ionic liquid) nanofiber membranes. Adv. ...
As an alternative, ionic hydrogel conductors with the thermogalvanic effect are promising for stretchable temperature sensing devices, and they can possess a high Seebeck coefficient and excellent tensile properties [27–33]. Therefore, intrinsically stretchable thermocouples with strain-insensitive sensing ...
Soft, stretchable and biocompatible conductors are required for on-skin and implantable electronics. Laser-induced graphene (LIG) can offer tuneable physical and chemical properties, and is of particular value in the development of monolithically integra
hydrogel-based sensors due to the extensively increased specific surface area, which can be applied to different polymer networks and facilitate the development of flexible integrated electronics. In addition, sustainable tapioca rich in hydrophilic polar groups is introduced for the first time as a ...
Electronic devices are an integral part of our life, starting from our kitchen to space technologies. The improving performances of electronic devices are upgrading our lifestyles day by day, it has already been witnessed in the last two decades. But whe
Significantly, the various propertiesof hydrogel can be controlled through rationally adjusting the chemicallycross-linked density. Our methodology will prove useful in developingthe satisfied mechanical and transparent CIHs for a myriad of applicationsin flexible electronics. 展开 ...
& Zhao, X. Skin-inspired hydrogel–elastomer hybrids with robust interfaces and functional microstructures. Nat. Commun. 7, 12028 (2016). Article Google Scholar Wang, G. N. et al. Tuning the cross-linker crystallinity of a stretchable polymer semiconductor. Chem. Mater. 31, 6465–6475 (...
Mechanically interlocked hydrogel–elastomer hybrids for on-skin electronics. Adv. Funct. Mater. 30, 1909540 (2020). Google Scholar Zheng, S. et al. Moisture-wicking, breathable, and intrinsically antibacterial electronic skin based on dual-gradient poly(ionic liquid) nanofiber membranes. Adv. ...