about
On the shedding of impaled droplets: The role of transient intervening layersMorphing and vectoring impacting droplets by means of wettability-engineered surfaces.Superhydrophobicity enhancement through substrate flexibility.Superhydrophobic-superhydrophilic binary micropatterns by localized thermal treatment of polyhedral oligomeric silsesquioxane (POSS)-silica films.Wettability patterning for high-rate, pumpless fluid transport on open, non-planar microfluidic platforms.Imparting Icephobicity with Substrate Flexibility.Detergency and Its Implications for Oil Emulsion Sieving and Separation.Sustaining dry surfaces under water.Highly liquid-repellent, large-area, nanostructured poly(vinylidene fluoride)/poly(ethyl 2-cyanoacrylate) composite coatings: particle filler effects.Water-based, nonfluorinated dispersions for environmentally benign, large-area, superhydrophobic coatings.Spontaneous self-dislodging of freezing water droplets and the role of wettability.Contactless Transport and Mixing of Liquids on Self-Sustained Sublimating Coatings.Surface tension confined (STC) tracks for capillary-driven transport of low surface tension liquids.On the Mechanism of Hydrophilicity of Graphene.Inkjet patterned superhydrophobic paper for open-air surface microfluidic devices.Spontaneous droplet trampolining on rigid superhydrophobic surfaces.Physics of icing and rational design of surfaces with extraordinary icephobicity.The fluid diode: tunable unidirectional flow through porous substrates.Desublimation Frosting on Nanoengineered SurfacesCascade Freezing of Supercooled Water Droplet CollectivesIn situ assembly in confined spaces of coated particle scaffolds as thermal underfills with extraordinary thermal conductivityMetasurfaces Leveraging Solar Energy for IcephobicityWetting transitions in droplet drying on soft materialsTransparent Metasurfaces Counteracting Fogging by Harnessing Sunlight3D-Printed Surface Architecture Enhancing Superhydrophobicity and Viscous Droplet Repellency
P50
Q27302767-11C5FE68-0242-45FC-981C-F5F8884E7E1DQ30597598-37E55233-5F82-4BF9-8236-9DBF433776E4Q30830136-E352A2DE-574F-4D82-9A69-83296078FACDQ34347374-CBD30F99-127C-4253-A96C-2B613B573DFDQ35119208-FF3EF75A-B322-46CF-84F3-6AAAF666D0F0Q38370332-DAD957C9-B2DB-4054-B0FE-F1AAE2238E98Q38733607-E1A60C3A-1522-491E-8E01-753AFF2651F9Q42565379-03AEE40C-73AD-4B2D-9A30-04DADC7C6BF4Q43084173-1E534C45-8DB2-4396-8B53-42AB6B748FC4Q44545295-4328F362-79EE-46DC-8802-9F4AF71D9F36Q47605727-AA2EA609-5CE4-4CFC-91CC-1B223119EC9CQ48048317-7713628B-9F02-4745-BB52-8903FA0FA912Q51304184-BAB4B113-9DD2-4E86-9583-64B59A9D4859Q51309271-E7B3AA69-F764-4005-8345-EF0BE63C4CE5Q51522770-E384BD21-EB09-4515-BBC0-BF5D433B6907Q51658877-B5F7C680-7F54-47BA-B063-83F8F485B695Q53404403-9BC3617E-469B-4D46-8E48-35BC8794F8BCQ53511229-5B877F30-EC87-42B3-BB8E-200B3CF76318Q57445741-BEC6BFDD-54E7-4D61-A683-493DDC84B907Q57789376-AC89595A-357C-4541-A95C-FD597EE91668Q86209237-3A809F81-D570-4311-8CE8-B4652D1A30DEQ89186808-8632AE99-D702-4C63-9A52-A09869927028Q90857658-3DE6BF3D-571C-42CE-972E-B46812003BE1Q91249770-14640273-79DE-470A-8177-80B7F9FFB466Q93210139-17235A62-A838-4ABF-AA47-04BDC37A1E9C
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Thomas M Schutzius
@ast
Thomas M Schutzius
@en
Thomas M Schutzius
@es
Thomas M Schutzius
@nl
Thomas M Schutzius
@sl
type
label
Thomas M Schutzius
@ast
Thomas M Schutzius
@en
Thomas M Schutzius
@es
Thomas M Schutzius
@nl
Thomas M Schutzius
@sl
prefLabel
Thomas M Schutzius
@ast
Thomas M Schutzius
@en
Thomas M Schutzius
@es
Thomas M Schutzius
@nl
Thomas M Schutzius
@sl
P1053
A-1686-2011
P106
P108
P21
P31
P3829
P496
0000-0003-3309-3568