High Precision Dynamic Manipulations of Large‐Volume‐Range Water‐Based Droplets by a Soft Gripper with Robust Water‐Repellent Superhydrophobic Surface

Abstract: Droplet manipulation has emerged as a key enabling technology in various scientific and engineering fields with great potentials in advanced applications such as bioanalysis and reagent microreactors. The current strategies generally involve external stimuli or chemical/structural surface gradients to provide the driving force for in plane droplet manipulations, which suffer from low efficiency, poor controllability, and small volume ranges (generally Vmax/Vmin < 10) due to their inherent limitations. Herein, … Show more

“…Static contact angle was measured using an DSA100S system (Kruss, Germany) under atmospheric condition. In impinging experiments, dynamic droplet behaviors were recorded with a high-resolution camera equipped in DSA100S system at a frame rate of 1000 fps [ 31 , 32 ]. The experiments were conducted in triplicate for each condition.…”

Multi-functional composite dressings with sustained release of MSC-SLP and anti-adhesion property for accelerating wound healing

“…Static contact angle was measured using an DSA100S system (Kruss, Germany) under atmospheric condition. In impinging experiments, dynamic droplet behaviors were recorded with a high-resolution camera equipped in DSA100S system at a frame rate of 1000 fps [ 31 , 32 ]. The experiments were conducted in triplicate for each condition.…”

Multi-functional composite dressings with sustained release of MSC-SLP and anti-adhesion property for accelerating wound healing

“…The unique characteristics of water-pinning surfaces can be attributed to their hierarchical micro and nanostructures, which provide both high adhesive and repellent forces against water. − By emulating the intricate features found on petals, we can replicate the water-pinning phenomenon and engineer innovative surfaces for diverse applications. Examples include dew collection systems for residential use in arid regions, antiwater drip coatings for a greenhouse, precise control of water droplets in microfluidic devices, and mitigating the “coffee-ring effect” on films or textiles. − …”

Fabrication of Superhydrophobic Water-Pinning Surfaces through Integration of Silica Colloids into Cellulose Nanocrystals

Cost-effective superhydrophobic ZnO films with adjustable wetting behaviors deposited via solution precursor plasma spray process