Researchers have developed a novel 3D stretchable electronic strip which is expected to open up a range of new possibilities in wearable electronic textiles. A team at Nottingham Trent University ...

Researchers at Nottingham Trent University have developed a novel 3D stretchable electronic strip that is expected to revolutionise wearable electronic textiles. This innovation could ...

Researchers from Nottingham Trent University have developed a 3D stretchable electronic strip which could help to open up a range of new possibilities in wearable electronic textiles. The team, from ...

“While helices have already been used in stretchable electronic devices, up to now they have only been used as interconnects or single components. What sets our work apart is that strips of flexible ...

“The plasticizers contained in the substrates diffuse into the conductive polymer, thereby improving both the electrical ...

By changing the strips’ geometry, ... That kind of resilience could make silicon’s future in electronics stretch out a whole lot further. by Kate Greene. Share. Share story on linkedin.

By rolling this type of electronic out into the market, the possibility for stretchable electronics and even smart packaging can become commonplace. Researchers published their results in Advanced ...

When users are assembling stretchable electronic devices, they simply press each end of one BIND connector to the circuitboard, etc in each of two components – the ends securely adhere ...

Since then, he has expanded the research direction within the Soft Electronics Group from soft and stretchable electronic materials and devices to include soft energy devices. In late 2024, he was ...

Scientists at Linköping University have developed a stretchable battery that can conform to any shape, thanks to its fluid electrodes. Made from conductive polymers and natural lignin, the soft ...