SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2884889672> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2884889672 endingPage "5572" @default.
W2884889672 startingPage "5561" @default.
W2884889672 abstract "Conductive hydrogels are promising materials for soft electronic devices. To satisfy the diverse requirement of bioelectronic devices, especially those for human–machine interfaces, hydrogels are required to be transparent, conductive, highly stretchable, and skin-adhesive. However, fabrication of a conductive-polymer-incorporated hydrogel with high performance is a challenge because of the hydrophobic nature of conductive polymers making processing difficult. Here, we report a transparent, conductive, stretchable, and self-adhesive hydrogel by in situ formation of polydopamine (PDA)-doped polypyrrole (PPy) nanofibrils in the polymer network. The in situ formed nanofibrils with good hydrophilicity were well-integrated with the hydrophilic polymer phase and interwoven into a nanomesh, which created a complete conductive path and allowed visible light to pass through for transparency. Catechol groups from the PDA–PPy nanofibrils imparted the hydrogel with self-adhesiveness. Reinforcement by the nanofibrils ..." @default.
W2884889672 created "2018-08-03" @default.
W2884889672 creator A5000789249 @default.
W2884889672 creator A5011875487 @default.
W2884889672 creator A5027574938 @default.
W2884889672 creator A5031744513 @default.
W2884889672 creator A5034576134 @default.
W2884889672 creator A5044410749 @default.
W2884889672 creator A5048630677 @default.
W2884889672 creator A5056977156 @default.
W2884889672 creator A5066215018 @default.
W2884889672 date "2018-07-23" @default.
W2884889672 modified "2023-10-15" @default.
W2884889672 title "Transparent, Adhesive, and Conductive Hydrogel for Soft Bioelectronics Based on Light-Transmitting Polydopamine-Doped Polypyrrole Nanofibrils" @default.
W2884889672 cites W1482770438 @default.
W2884889672 cites W1966254834 @default.
W2884889672 cites W1980572648 @default.
W2884889672 cites W1984430446 @default.
W2884889672 cites W1986096614 @default.
W2884889672 cites W1987942961 @default.
W2884889672 cites W1994942404 @default.
W2884889672 cites W1996833161 @default.
W2884889672 cites W1999339091 @default.
W2884889672 cites W2002270934 @default.
W2884889672 cites W2003186719 @default.
W2884889672 cites W2005555529 @default.
W2884889672 cites W2007435422 @default.
W2884889672 cites W2007822101 @default.
W2884889672 cites W2024413174 @default.
W2884889672 cites W2024640725 @default.
W2884889672 cites W2026607816 @default.
W2884889672 cites W2032423464 @default.
W2884889672 cites W2033601397 @default.
W2884889672 cites W2035332297 @default.
W2884889672 cites W2039659572 @default.
W2884889672 cites W2045800801 @default.
W2884889672 cites W2049078445 @default.
W2884889672 cites W2057492698 @default.
W2884889672 cites W2058067017 @default.
W2884889672 cites W2059654492 @default.
W2884889672 cites W2060392972 @default.
W2884889672 cites W2067478222 @default.
W2884889672 cites W2068604134 @default.
W2884889672 cites W2070753604 @default.
W2884889672 cites W2076834873 @default.
W2884889672 cites W2077549327 @default.
W2884889672 cites W2092422188 @default.
W2884889672 cites W2092858957 @default.
W2884889672 cites W2099209249 @default.
W2884889672 cites W2099213797 @default.
W2884889672 cites W2100466618 @default.
W2884889672 cites W2111917512 @default.
W2884889672 cites W2115932255 @default.
W2884889672 cites W2118160096 @default.
W2884889672 cites W2125053213 @default.
W2884889672 cites W2129657870 @default.
W2884889672 cites W2133064818 @default.
W2884889672 cites W2150981663 @default.
W2884889672 cites W2156353574 @default.
W2884889672 cites W2169444767 @default.
W2884889672 cites W2174636528 @default.
W2884889672 cites W2209539636 @default.
W2884889672 cites W2313024814 @default.
W2884889672 cites W2316916084 @default.
W2884889672 cites W2321451519 @default.
W2884889672 cites W2322562148 @default.
W2884889672 cites W2328305902 @default.
W2884889672 cites W2346098516 @default.
W2884889672 cites W2401823338 @default.
W2884889672 cites W2469620494 @default.
W2884889672 cites W2514793173 @default.
W2884889672 cites W2534624125 @default.
W2884889672 cites W2538347106 @default.
W2884889672 cites W2592953811 @default.
W2884889672 cites W2603129706 @default.
W2884889672 cites W2607252873 @default.
W2884889672 cites W2616602601 @default.
W2884889672 cites W2768123168 @default.
W2884889672 cites W2769318912 @default.
W2884889672 cites W4213373925 @default.
W2884889672 doi "https://doi.org/10.1021/acs.chemmater.8b01446" @default.
W2884889672 hasPublicationYear "2018" @default.
W2884889672 type Work @default.
W2884889672 sameAs 2884889672 @default.
W2884889672 citedByCount "301" @default.
W2884889672 countsByYear W28848896722018 @default.
W2884889672 countsByYear W28848896722019 @default.
W2884889672 countsByYear W28848896722020 @default.
W2884889672 countsByYear W28848896722021 @default.
W2884889672 countsByYear W28848896722022 @default.
W2884889672 countsByYear W28848896722023 @default.
W2884889672 crossrefType "journal-article" @default.
W2884889672 hasAuthorship W2884889672A5000789249 @default.
W2884889672 hasAuthorship W2884889672A5011875487 @default.
W2884889672 hasAuthorship W2884889672A5027574938 @default.
W2884889672 hasAuthorship W2884889672A5031744513 @default.
W2884889672 hasAuthorship W2884889672A5034576134 @default.
W2884889672 hasAuthorship W2884889672A5044410749 @default.