Microscale Surface Tension and Its Applications

Microscale Surface Tension and Its Applications

Building on advances in miniaturization and soft matter, surface tension effects are a major key to the development of soft/fluidic microrobotics. Benefiting from scaling laws, surface tension and capillary effects can enable sensing, actuation, adhesion, confinement, compliance, and other structura...

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Lambert, Pierre
Mastrangeli, Massimo
Year of Publication:2019
Language:English
Physical Description:1 electronic resource (240 p.)
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id 993548229704498
ctrlnum (CKB)4100000010106202
(oapen)https://directory.doabooks.org/handle/20.500.12854/53440
(EXLCZ)994100000010106202
collection bib_alma
record_format marc
spelling Lambert, Pierre auth
Microscale Surface Tension and Its Applications
MDPI - Multidisciplinary Digital Publishing Institute 2019
1 electronic resource (240 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Building on advances in miniaturization and soft matter, surface tension effects are a major key to the development of soft/fluidic microrobotics. Benefiting from scaling laws, surface tension and capillary effects can enable sensing, actuation, adhesion, confinement, compliance, and other structural and functional properties necessary in micro- and nanosystems. Various applications are under development: microfluidic and lab-on-chip devices, soft gripping and manipulation of particles, colloidal and interfacial assemblies, fluidic/droplet mechatronics. The capillary action is ubiquitous in drops, bubbles and menisci, opening a broad spectrum of technological solutions and scientific investigations. Identified grand challenges to the establishment of fluidic microrobotics include mastering the dynamics of capillary effects, controlling the hysteresis arising from wetting and evaporation, improving the dispensing and handling of tiny droplets, and developing a mechatronic approach for the control and programming of surface tension effects. In this Special Issue of Micromachines, we invite contributions covering all aspects of microscale engineering relying on surface tension. Particularly, we welcome contributions on fundamentals or applications related to:Drop-botics: fluidic or surface tension-based micro/nanorobotics: capillary manipulation, gripping, and actuation, sensing, folding, propulsion and bio-inspired solutions; Control of surface tension effects: surface tension gradients, active surfactants, thermocapillarity, electrowetting, elastocapillarity; Handling of droplets, bubbles and liquid bridges: dispensing, confinement, displacement, stretching, rupture, evaporation; Capillary forces: modelling, measurement, simulation; Interfacial engineering: smart liquids, surface treatments; Interfacial fluidic and capillary assembly of colloids and devices; Biological applications of surface tension, including lab-on-chip and organ-on-chip systems. We expect novel as well as review contributions on all aspects of surface tension-based micro/nanoengineering. In line with Micromachines' policy, we also invite research proposals that introduce ideas for new applications, devices, or technologies.
English
electrodynamic screen
soft tissue
microstructure
mist capillary self-alignment
droplet
lab-on-a-chip
mixing
nanoprecipitation
asymmetric surfaces
gecko setae
oil-water interface
non-invasive control
self-cleaning surface
corrosive resistance
micropipette-technique
hydrophobic
wettability gradient
lung-surfactants
hydrophilic
dynamic
vibrations
superhydrophobic
microasssembly
adsorption
wetting
photochemical reaction
contact line oscillation
355 nm UV laser
capillary
computational fluid dynamics
bearing
solutal Marangoni effect
relaxation oscillations
superhydrophilic
microtexture melting
rigid gas permeable contact lenses
hydrophilic/superhydrophobic patterned surfaces
polydimethylsiloxane (PDMS) replication
microfabrication
actuation
droplet transport
“droplet-interface-bilayers”
microfluidics
electrosurgical scalpels
continuous-flow reactor
air-water surface
micromanufacturing
surface treatment
liquid bridge
stereolithography
super-hydrophobic
two-phase flow
hot drop
durable
insoluble lipids
anti-sticking
smart superhydrophobic surface
droplet manipulation
“black lipid films”
condensation
pick-and-place
wettability
gas-microbubbles
soft robotics
capillary pressure
superomniphobic
self-lubricating slippery surface
electrowetting
soluble surfactant
anisotropic ratchet conveyor
Nasturtium leaf
droplets
photoresponsible surfactant
two-photon polymerization
contact angle
adhesion
transport
pick and place
surface tension
oil-microdroplets
micromanipulation
laser die transfer
capillary gripper
equilibrium
3-03921-564-7
Mastrangeli, Massimo auth
language English
format eBook
author Lambert, Pierre
spellingShingle Lambert, Pierre
Microscale Surface Tension and Its Applications
author_facet Lambert, Pierre
Mastrangeli, Massimo
author_variant p l pl
author2 Mastrangeli, Massimo
author2_variant m m mm
author_sort Lambert, Pierre
title Microscale Surface Tension and Its Applications
title_full Microscale Surface Tension and Its Applications
title_fullStr Microscale Surface Tension and Its Applications
title_full_unstemmed Microscale Surface Tension and Its Applications
title_auth Microscale Surface Tension and Its Applications
title_new Microscale Surface Tension and Its Applications
title_sort microscale surface tension and its applications
publisher MDPI - Multidisciplinary Digital Publishing Institute
publishDate 2019
physical 1 electronic resource (240 p.)
isbn 3-03921-565-5
3-03921-564-7
illustrated Not Illustrated
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carrierType_str_mv cr
is_hierarchy_title Microscale Surface Tension and Its Applications
author2_original_writing_str_mv noLinkedField
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