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Ultra‐Sensitive and Stable Multiplexed Biosensors Array in Fully Printed and Integrated Platforms for Reliable Perspiration Analysis

Suman Ma, Zhu’an Wan, Chen Wang, Zhilong Song, Yucheng Ding, Daquan Zhang, Chak Lam Jonathan Chan, Lei Shu, Liting Huang, Zhensen Yang, Fei Wang, Jiaming Bai, Zhiyong Fan, Yuanjing Lin

2024Advanced Materials54 citationsDOIOpen Access PDF

Abstract

Abstract Electrochemical biosensors have emerged as one of the promising tools for tracking human body physiological dynamics via non‐invasive perspiration analysis. However, it remains a key challenge to integrate multiplexed sensors in a highly controllable and reproducible manner to achieve long‐term reliable biosensing, especially on flexible platforms. Herein, a fully inkjet printed and integrated multiplexed biosensing patch with remarkably high stability and sensitivity is reported for the first time. These desirable characteristics are enabled by the unique interpenetrating interface design and precise control over active materials mass loading, owing to the optimized ink formulations and droplet‐assisted printing processes. The sensors deliver sensitivities of 313.28 µA m m −1 cm −2 for glucose and 0.87 µA m m −1 cm −2 for alcohol sensing with minimal drift over 30 h, which are among the best in the literature. The integrated patch can be used for reliable and wireless diet monitoring or medical intervention via epidermal analysis and would inspire the advances of wearable devices for intelligent healthcare applications.

Topics & Concepts

PerspirationMaterials scienceBiosensorMultiplexingNanotechnologyOptoelectronicsComputer scienceTelecommunicationsComposite materialAdvanced Sensor and Energy Harvesting MaterialsBiosensors and Analytical DetectionAnalytical Chemistry and Sensors
Ultra‐Sensitive and Stable Multiplexed Biosensors Array in Fully Printed and Integrated Platforms for Reliable Perspiration Analysis | Litcius