Elastic electronics based on micromesh-structured rubbery semiconductor films
The development of soft electronics that can be seamlessly integrated with biological tissue
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
[PDF][PDF] Elastic electronics based on micromesh-structured rubbery semiconductor films
YS Guan, F Ershad, Z Rao, Z Ke, EC da Costa… - Nature Electronics, 2022 - par.nsf.gov
The development of soft electronics that can be seamlessly integrated with biological tissue
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
Elastic electronics based on micromesh-structured rubbery semiconductor films
YS Guan, F Ershad, Z Rao, Z Ke, EC da Costa… - Nature …, 2022 - pure.psu.edu
The development of soft electronics that can be seamlessly integrated with biological tissue
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
[PDF][PDF] Elastic electronics based on micromesh-structured rubbery semiconductor films
YS Guan, F Ershad, Z Rao, Z Ke, EC da Costa, Q Xiang… - researchgate.net
The development of soft electronics that can be seamlessly integrated with biological tissue
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …
requires intrinsically stretchable rubbery semiconductors with high carrier mobilities …