Gas-adsorption dynamics at the water–air interface, revealed by resonant droplet tensiometry

“…22,23 Another example in which the compensation of droplet evaporation is essential is the study of gas adsorption at the air−water interface. 24 Volume loss is especially problematic for small droplets as the highly curved drop surface increases the chemical potential of evaporation. 25 Here, we demonstrate that the ADSA-based volume control maintains a constant drop volume over a prolonged time period by automatically compensating evaporation.…”

“…Evaporation is an inevitable problem of any droplet-based apparatus in which the drop volume decreases with time due to evaporation at a rate affected by the surface area of the droplet, volatility of the liquid, and the environmental conditions . For instance, protein adsorption may take several hours to complete, during which evaporation may cause significant artifact by contracting the air–water interface of the droplet. , Another example in which the compensation of droplet evaporation is essential is the study of gas adsorption at the air–water interface . Volume loss is especially problematic for small droplets as the highly curved drop surface increases the chemical potential of evaporation .…”

Automated Droplet Manipulation Using Closed-Loop Axisymmetric Drop Shape Analysis

“…22,23 Another example in which the compensation of droplet evaporation is essential is the study of gas adsorption at the air−water interface. 24 Volume loss is especially problematic for small droplets as the highly curved drop surface increases the chemical potential of evaporation. 25 Here, we demonstrate that the ADSA-based volume control maintains a constant drop volume over a prolonged time period by automatically compensating evaporation.…”

“…Evaporation is an inevitable problem of any droplet-based apparatus in which the drop volume decreases with time due to evaporation at a rate affected by the surface area of the droplet, volatility of the liquid, and the environmental conditions . For instance, protein adsorption may take several hours to complete, during which evaporation may cause significant artifact by contracting the air–water interface of the droplet. , Another example in which the compensation of droplet evaporation is essential is the study of gas adsorption at the air–water interface . Volume loss is especially problematic for small droplets as the highly curved drop surface increases the chemical potential of evaporation .…”

Automated Droplet Manipulation Using Closed-Loop Axisymmetric Drop Shape Analysis

Oscillation mode and resonant frequencies of spherical pendant droplets

Resonant droplet tensiometry driven by an electric field