Printable Photonic Materials and Devices for Smart Healthcare DOI Open Access
Xinyi Zhang,

Kemeng Zhou,

Zhibin Zhao

et al.

Advanced Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 5, 2025

Photonic materials possess tunable optical properties and have been widely utilized for healthcare applications. These enable the detection of physical physiological bio-signals via modulated output characteristics, such as wavelength shifts, fluorescence emission, light scattering. When further synthesized into functional photonic inks, multimodal devices epidermal, minimally invasive, implantable bio-sensing can be constructed in facile printable manners. This review first introduces different geometries their unique properties. To feasible fabrication multi-functional biosensing versatile platforms, synthesis inks as-printed are then illustrated. Subsequently, advances breakthroughs to construct integrated systems wearable applications displayed, especially sensing facilitate personalized remote healthcare. Finally, challenges achieving mechanical stability, eliminated degradation, enhanced biocompatibility dynamic biological environments, scalable production discussed, along with prospects toward reliable intelligent

Language: Английский

Printable Photonic Materials and Devices for Smart Healthcare DOI Open Access
Xinyi Zhang,

Kemeng Zhou,

Zhibin Zhao

et al.

Advanced Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 5, 2025

Photonic materials possess tunable optical properties and have been widely utilized for healthcare applications. These enable the detection of physical physiological bio-signals via modulated output characteristics, such as wavelength shifts, fluorescence emission, light scattering. When further synthesized into functional photonic inks, multimodal devices epidermal, minimally invasive, implantable bio-sensing can be constructed in facile printable manners. This review first introduces different geometries their unique properties. To feasible fabrication multi-functional biosensing versatile platforms, synthesis inks as-printed are then illustrated. Subsequently, advances breakthroughs to construct integrated systems wearable applications displayed, especially sensing facilitate personalized remote healthcare. Finally, challenges achieving mechanical stability, eliminated degradation, enhanced biocompatibility dynamic biological environments, scalable production discussed, along with prospects toward reliable intelligent

Language: Английский

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