Vitality surveillance at distance using thin-film tandem-like narrowband near-infrared photodiodes with light-enhanced responsivity.
Riccardo OllearoXiao MaHylke B AkkermanMarco FattoriMatthew J DysonAlbert J J M van BreemenStefan C J MeskersWijnand DijkstraRené A J JanssenGerwin H GelinckPublished in: Science advances (2023)
Remote measurement of vital sign parameters like heartbeat and respiration rate represents a compelling challenge in monitoring an individual's health in a noninvasive way. This could be achieved by large field-of-view, easy-to-integrate unobtrusive sensors, such as large-area thin-film photodiodes. At long distances, however, discriminating weak light signals from background disturbance demands superior near-infrared (NIR) sensitivity and optical noise tolerance. Here, we report an inherently narrowband solution-processed, thin-film photodiode with ultrahigh and controllable NIR responsivity based on a tandem-like perovskite-organic architecture. The device has low dark currents (<10 -6 mA cm -2 ), linear dynamic range >150 dB, and operational stability over time (>8 hours). With a narrowband quantum efficiency that can exceed 200% at 850 nm and intrinsic filtering of other wavelengths to limit optical noise, the device exhibits higher tolerance to background light than optically filtered silicon-based sensors. We demonstrate its potential in remote monitoring by measuring the heart rate and respiration rate from distances up to 130 cm in reflection.
Keyphrases
- heart rate
- photodynamic therapy
- heart rate variability
- public health
- blood pressure
- air pollution
- high resolution
- healthcare
- high speed
- drug release
- low cost
- fluorescence imaging
- mental health
- fluorescent probe
- molecular dynamics
- health information
- room temperature
- magnetic resonance
- drug delivery
- social media
- climate change
- human health
- quantum dots
- mass spectrometry
- solar cells
- health promotion