Cactus‐Spine‐Inspired Sweat‐Collecting Patch for Fast and Continuous Monitoring of Sweat

A sweat sensor is expected to be the most appropriate wearable device for noninvasive healthcare monitoring. However, the practical use of sweat sensors is impeded by irregular and low sweat secretion rates. Here, a sweat‐collecting patch that can collect sweat efficiently for fast and continuous healthcare monitoring is demonstrated. The patch uses cactus‐spine‐inspired wedge‐shaped wettability‐patterned channels on a hierarchical microstructured/nanostructured surface. The channel shape, in combination with the superhydrophobic/superhydrophilic surface materials, induces a unidirectional Laplace pressure that transports the sweat to the sensing area spontaneously even when the patch is aligned vertically. The patch demonstrates superior sweat‐collecting efficiency and reduces the time required to fill the sensing area by transporting sweat almost without leaving it inside the channel. Therefore, a sensor based on the patch responds quickly to biochemicals in sweat, and the patch enables the continuous monitoring of changes in sweat biochemicals according to their changes in the wearer's blood. A sweat‐collecting patch with high sweat‐collection efficiency is developed. The patch uses cactus‐spine‐inspired wedge‐shaped wettability‐patterned channels, which induce a unidirectional Laplace pressure that transports the sweat to the sensing‐area spontaneously without leaving it inside the channel. A sensor based on the patch responds quickly to biochemicals in sweat and the patch enables the continuous monitoring of biochemical changes in sweat.