about
A model analysis of arterial oxygen desaturation during apnea in preterm infants.Electrokinetics of the silica and aqueous electrolyte solution interface: Viscoelectric effects.Effect of wall permittivity on electroviscous flow through a contraction.Stationary chemical gradients for concentration gradient-based separation and focusing in nanofluidic channels.Non-linear separation of pressure, velocity and wave intensity into forward and backward components.Concentration gradient focusing and separation in a silica nanofluidic channel with a non-uniform electroosmotic flow.Robustness of the P-U and lnD-U loop wave speed estimation methods: effects of the diastolic pressure decay and vessel wall non-linearities.Electrokinetics of isolated electrified drops.Electroviscous resistance of nanofluidic bends.Microfluidic circuit analysis II: implications of ion conservation for microchannels connected in series.Architecture control of three-dimensional polymeric scaffolds for soft tissue engineering. I. Establishment and validation of numerical models.Mechanism underlying accelerated arterial oxygen desaturation during recurrent apnea.A dynamic model for assessing the impact of diffusing capacity on arterial oxygenation during apnea.A model investigation of the impact of ventilation-perfusion mismatch on oxygenation during apnea in preterm infants.Further considerations in a theoretical description of gas transport in lung airways.Isoelectric focusing in a silica nanofluidic channel: effects of electromigration and electroosmosis.Transport of O2 along a model pathway through the respiratory region of the lung.Modelling oxygen diffusion and cell growth in a porous, vascularising scaffold for soft tissue engineering applicationsDeformation of a Droplet Passing Through a ContractionThe reservoir-wave paradigm introduces error into arterial wave analysis: a computer modelling and in-vivo studyMicrofluidic circuit analysis I: ion current relationships for thin slits and pipesA simple, versatile valve model for use in lumped parameter and one-dimensional cardiovascular modelsCorrections to 'Microfluidic circuit analysis I: Ion current relationships for thin slits and pipes', J. Colloid Interface Sci. 365 (2012) 1-15 and 'Microfluidic circuit analysis II: Implications of ion conservation for microchannels connected in se
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description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Malcolm R Davidson
@nl
Malcolm R Davidson
@sl
Malcolm R. Davidson
@en
Malcolm R. Davidson
@es
type
label
Malcolm R Davidson
@nl
Malcolm R Davidson
@sl
Malcolm R. Davidson
@en
Malcolm R. Davidson
@es
prefLabel
Malcolm R Davidson
@nl
Malcolm R Davidson
@sl
Malcolm R. Davidson
@en
Malcolm R. Davidson
@es
P1053
I-9089-2012
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P1153
7401858421
P31
P3829
P496
0000-0002-2173-2417