Fully Integrated Multiplexed Wristwatch for Real-Time Monitoring of Electrolyte Ions in Sweat.
Xin CaiRui-Ze XiaZi-Hao LiuHai-Hua DaiYong-Huan ZhaoShi-Hua ChenMeng YangPei-Hua LiXing-Jiu HuangPublished in: ACS nano (2024)
Considerable progress has already been made in sweat sensors based on electrochemical methods to realize real-time monitoring of biomarkers. However, realizing long-term monitoring of multiple targets at the atomic level remains extremely challenging, in terms of designing stable solid contact (SC) interfaces and fully integrating multiple modules for large-scale applications of sweat sensors. Herein, a fully integrated wristwatch was designed using mass-manufactured sensor arrays based on hierarchical multilayer-pore cross-linked N-doped porous carbon coated by reduced graphene oxide (NPCs@rGO-950) microspheres with high hydrophobicity as core SC, and highly selective monitoring simultaneously for K + , Na + , and Ca 2+ ions in human sweat was achieved, exhibiting near-Nernst responses almost without forming an interfacial water layer. Combined with computed tomography, solid-solid interface potential diffusion simulation results reveal extremely low interface diffusion potential and high interface capacitance (598 μF), ensuring the excellent potential stability, reversibility, repeatability, and selectivity of sensor arrays. The developed highly integrated-multiplexed wristwatch with multiple modules, including SC, sensor array, microfluidic chip, signal transduction, signal processing, and data visualization, achieved reliable real-time monitoring for K + , Na + , and Ca 2+ ion concentrations in sweat. Ingenious material design, scalable sensor fabrication, and electrical integration of multimodule wearables lay the foundation for developing reliable sweat-sensing systems for health monitoring.
Keyphrases
- reduced graphene oxide
- computed tomography
- gold nanoparticles
- single cell
- quantum dots
- high throughput
- healthcare
- endothelial cells
- machine learning
- dna methylation
- electronic health record
- magnetic resonance
- highly efficient
- social media
- climate change
- big data
- contrast enhanced
- image quality
- molecularly imprinted
- water soluble
- protein kinase
- perovskite solar cells
- electron transfer
- pet ct