Add to ORKGObjects lying on the liquid-gas interface create a free surface deformation due to surface tension. In previous studies, it has been shown that capillary/ meniscus interaction between these objects leads to self assembly. This phenomenon is also known as the \u91\u91Cheerios effect\u92\u92. Surface tension driven self assembly offers an attractive route for creation of highly ordered structures of meso- to microscale entities. A detailed characterization of the self assembly process requires measurement of three dimensional (3d) menisci around the assembling entities. In this work, Free Surface Synthetic Schlieren (FS-SS) method is being used to measure meniscus profile around a vertical glass cylinder submerged in a water pool. The key obj...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
Abstract—The literature concerning the properties of menisci is briefly reviewed and it is shown tha...
Capillarity is pivotal to many important technologies, including capillary self-alignment and self-a...
Realizing the dominance of surface tensional forces helps us understand many phenomena in nature and...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
This paper proposes a new procedure to simultaneously measure the static contact angle and the surfa...
A novel technique was designed to measure the meniscus height (MH) of liquids on a standard single m...
The goal of the presented work is to optimize the experimental set-up of the end-tip meniscus planar...
We evaluate how the curvature dependence of surface tension affects the shape of electrically charge...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
Abstract—The literature concerning the properties of menisci is briefly reviewed and it is shown tha...
Capillarity is pivotal to many important technologies, including capillary self-alignment and self-a...
Realizing the dominance of surface tensional forces helps us understand many phenomena in nature and...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
This paper proposes a new procedure to simultaneously measure the static contact angle and the surfa...
A novel technique was designed to measure the meniscus height (MH) of liquids on a standard single m...
The goal of the presented work is to optimize the experimental set-up of the end-tip meniscus planar...
We evaluate how the curvature dependence of surface tension affects the shape of electrically charge...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
It is shown that complications in currently used optical measurements for wetting and flow resistanc...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
The formation of a bridging gas meniscus via cavitation or nanobubbles is considered the most likely...
Abstract—The literature concerning the properties of menisci is briefly reviewed and it is shown tha...
Capillarity is pivotal to many important technologies, including capillary self-alignment and self-a...