Ladder-Type Poly(3,4-ethylenedioxythiophene)–Poly(ethylene glycol)–Polyurethane Supramolecular Network for Gel Polymer Electrolyte

“…Compared with traditional electronic devices, exible electronic devices possess the unique characteristics of lightweight, bendability and extensibility and have exhibited great potential in the elds of biomedicine, exible displays, wearable devices, exible solar cells, and the like. [1][2][3][4][5][6][7] Generally, the structure of a exible device includes a exible substrate, exible electrodes, functional materials and the sealing layer. [8][9][10][11][12] To achieve highperformance exible devices, except for the new organic electronic materials, advanced preparation and packaging techniques need to be comprehensively explored.…”

Conductive polyurethane elastomer electrolyte (PUEE) materials for anodic bonding

“…Compared with traditional electronic devices, exible electronic devices possess the unique characteristics of lightweight, bendability and extensibility and have exhibited great potential in the elds of biomedicine, exible displays, wearable devices, exible solar cells, and the like. [1][2][3][4][5][6][7] Generally, the structure of a exible device includes a exible substrate, exible electrodes, functional materials and the sealing layer. [8][9][10][11][12] To achieve highperformance exible devices, except for the new organic electronic materials, advanced preparation and packaging techniques need to be comprehensively explored.…”

Conductive polyurethane elastomer electrolyte (PUEE) materials for anodic bonding

Flexible anodic bonding for the bonding between elastomer and metal

TMP-based hyperbranched polyurethane elastomer (HBPUE) packaging material applied to anodic bonding