Study of the mechanism of embolism removal in xylem vessels by using microfluidic devices

Abstract: Determining the mechanism that effects embolism repair in the xylem vessels of plants is of great significance in predicting plant distribution and the screening of drought-resistant plants. However, the mechanism...

“…Moreover, emulating the fluidic system in plants not only enables the replication of their microfluidic Biomicrofluidics PERSPECTIVE pubs.aip.org/aip/bmf capabilities, but also allows for a comprehensive understanding through the utilization of devices that offer advantages in manipulating parameters, such as geometry, contact angle, and environmental conditions. 155,156 However, despite these compelling advantages and promising applications, we have observed stagnation in the development and innovation of GPM-based microfluidic applications. Our analysis has indicated that a dearth of diversity in available membranes, specifically scarcity of polymer choices, severely restricts the range of gases and liquids that can be selectively transported.…”

Gas transport mechanisms through gas-permeable membranes in microfluidics: A perspective

“…Moreover, emulating the fluidic system in plants not only enables the replication of their microfluidic Biomicrofluidics PERSPECTIVE pubs.aip.org/aip/bmf capabilities, but also allows for a comprehensive understanding through the utilization of devices that offer advantages in manipulating parameters, such as geometry, contact angle, and environmental conditions. 155,156 However, despite these compelling advantages and promising applications, we have observed stagnation in the development and innovation of GPM-based microfluidic applications. Our analysis has indicated that a dearth of diversity in available membranes, specifically scarcity of polymer choices, severely restricts the range of gases and liquids that can be selectively transported.…”

Gas transport mechanisms through gas-permeable membranes in microfluidics: A perspective