Advanced Optical Materials, Journal Year: 2018, Volume and Issue: 7(2)

Published: Sept. 20, 2018

Abstract The emergence of high‐performance materials for flexible inorganic light emitting diodes (ILEDs) provides the foundations a broad range compelling, unconventional systems, from deformable displays and lighting sources to wearable implantable bioelectronics with diagnostic therapeutic capabilities. Interdisciplinary progress in synthetic methods, device designs, mechanical layouts, assembly techniques over past decade enables ILEDs remarkable operating characteristics even under extreme modes deformation. This review summarizes recent advances this field, emphasis on unique properties underlying physics first several sections. subsequent content highlights examples system‐level integration into advanced optoelectronic platforms that would be difficult or impossible achieve conventional approaches. Miniaturized, biomedical tools optical modulation neural activity at target sites conformable, skin‐mounted electronics sensing visualization physiological parameters real time provide some most directions.

Language: Английский