대학원생 구두발표(토론IV): 지속가능한 고분자 소재를 위한 순환적 디자인
[OD4-2]
우수논문발표상 응모자Energy-autonomous and skin-adaptive sensor patch with monolithically nano-interconnected interfaces for spatiotemporal teleoperation
발표자전승환 (성균관대학교)
연구책임자방창현 (성균관대학교)
Abstract
Here, we present a energy-autonomous and highly skin-adaptive sensor adhesive patch significantly advancing virtual reality based spatiotemporal teleoperation. Monolithic multilayers include deformable top and bottom wrinkled electrodes embedded with carbon nanotubes monolithically embedded in middle active layer, providing ∼40 % enhanced self-powered sensing and revertability (<10,000 cycles). Additionally, a sensor integrated with a bio-inspired hierarchical octopus-beetle adhesive ensures robust and reversible adhesions in multi-directional skin adhesion under wet conditions while maintaining breathability and comfort for long-term wear. This design addresses the critical challenges of low power consumption for reliable signal transduction and mechanical mismatch limiting current skin-attached devices, enabling a human-friendly and durable device for immersive teleoperation technologies. This study was published in: Materials Science and Engineering: R: Reports, 165, 100995