F
Frieder Mugele
Researcher at MESA+ Institute for Nanotechnology
Publications - 192
Citations - 6646
Frieder Mugele is an academic researcher from MESA+ Institute for Nanotechnology. The author has contributed to research in topics: Electrowetting & Drop (liquid). The author has an hindex of 45, co-authored 185 publications receiving 5606 citations. Previous affiliations of Frieder Mugele include University of Twente & University of California, Berkeley.
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Suppressing the coffee stain effect: how to control colloidal self-assembly in evaporating drops using electrowetting
TL;DR: In this article, the influence of electrowetting on the formation of undesired solute residues, so-called coffee stains, during the evaporation of a drop containing nonvolatile solvents was investigated.
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Wettability-independent bouncing on flat surfaces mediated by thin air films
TL;DR: In this paper, a different universal bouncing mechanism that occurs on both wetting and non-wetting flat surfaces for both high and low surface tension liquids was reported. But the authors focused on superhydrophobic surfaces with specific surface structures enabling drop bouncing with reduced contact time.
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How to make sticky surfaces slippery: Contact angle hysteresis in electrowetting with alternating voltage
Fahong Li,Frieder Mugele +1 more
TL;DR: In this paper, it was shown that the contact angle hysteresis for sessile drops in electrowetting almost disappears with increasing alternating voltage, whereas for direct voltage it remains constant.
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Hard and soft colloids at fluid interfaces: Adsorption, interactions, assembly & rheology
TL;DR: Although it is well established that the transport of both hard particles and microgels to the interface is driven by diffusion, the analysis of the adsorption kinetics needs reconsideration and a proper equation of state relating the surface pressure to the Adsorbed mass should be used.
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Direct observation of ionic structure at solid-liquid interfaces: a deep look into the Stern Layer
Igor Sîretanu,Daniel Ebeling,Martin Andersson,Susan L. S. Stipp,Albert P. Philipse,Martin Cohen Stuart,Dirk van den Ende,Frieder Mugele +7 more
TL;DR: This work has made use of recent advances in high-resolution Atomic Force Microscopy to reveal the ordered adsorption of the mono- and divalent ions that are common in natural environments to heterogeneous gibbsite/silica surfaces in contact with aqueous electrolytes.