Multimodal Sensing Transparent Droplet Probe for Characterization of Superhydrophobic Surfaces
Author:
Affiliation:
1. Department of Electrical Engineering and Automation, School of Electrical Engineering, Aalto University, Espoo, Finland
Funder
Multidisciplinary Doctoral Study through Aalto Doctoral School of Electrical Engineering and the Academy of Finland
Publisher
Institute of Electrical and Electronics Engineers (IEEE)
Subject
Electrical and Electronic Engineering,Instrumentation
Link
http://xplorestaging.ieee.org/ielx7/7361/10198840/10163975.pdf?arnumber=10163975
Reference29 articles.
1. Study of Wetting and Adhesion Interactions between Water and Various Polymer and Superhydrophobic Surfaces
2. Oscillating droplet tribometer for sensitive and reliable wetting characterization of superhydrophobic surfaces
3. Mapping micrometer-scale wetting properties of superhydrophobic surfaces
4. Mapping microscale wetting variations on biological and synthetic water-repellent surfaces
5. Dynamic Measurement of the Force Required to Move a Liquid Drop on a Solid Surface
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1. Measurement Methods for Droplet Adhesion Characteristics and Micrometer-Scale Quantification of Contact Angle on Superhydrophobic Surfaces: Challenges and Opportunities;Langmuir;2024-05-02
2. Through-Drop Imaging of Liquid–Solid Interfaces: From Contact Angle Variations Along the Droplet Perimeter to Mapping of Contact Angles Across a Surface;Langmuir;2024-04-15
3. Triaxial Force Plate With Prism Imaging and Sampling Moiré Method;IEEE Sensors Journal;2024-04-01
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