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Dmitry A. Fedosov
Dmitry A. Fedosov
Group leader, Institute of Biological Information Processing, Forschungszentrum Juelich
在 fz-juelich.de 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
A multiscale red blood cell model with accurate mechanics, rheology, and dynamics
DA Fedosov, B Caswell, GE Karniadakis
Biophysical journal 98 (10), 2215-2225, 2010
6722010
Predicting human blood viscosity in silico
DA Fedosov, W Pan, B Caswell, G Gompper, GE Karniadakis
Proceedings of the National Academy of Sciences 108 (29), 11772-11777, 2011
3912011
Blood Flow and Cell‐Free Layer in Microvessels
DA Fedosov, B Caswell, AS Popel, GE Karniadakis
Microcirculation 17 (8), 615-628, 2010
3222010
Margination of micro-and nano-particles in blood flow and its effect on drug delivery
K Müller, DA Fedosov, G Gompper
Scientific reports 4 (1), 4871, 2014
3152014
Equilibrium physics breakdown reveals the active nature of red blood cell flickering
H Turlier, DA Fedosov, B Audoly, T Auth, NS Gov, C Sykes, JF Joanny, ...
Nature physics 12 (5), 513-519, 2016
3062016
Equilibrium physics breakdown reveals the active nature of red blood cell flickering
H Turlier, DA Fedosov, B Audoly, T Auth, NS Gov, C Sykes, JF Joanny, ...
Nature Physics 12 (5), 513-519, 2016
3062016
Systematic coarse-graining of spectrin-level red blood cell models
DA Fedosov, B Caswell, GE Karniadakis
Computer Methods in Applied Mechanics and Engineering 199 (29-32), 1937-1948, 2010
2992010
Multiscale modeling of blood flow: from single cells to blood rheology
DA Fedosov, H Noguchi, G Gompper
Biomechanics and modeling in mechanobiology 13, 239-258, 2014
2732014
Red cells’ dynamic morphologies govern blood shear thinning under microcirculatory flow conditions
L Lanotte, J Mauer, S Mendez, DA Fedosov, JM Fromental, V Claveria, ...
Proceedings of the National Academy of Sciences 113 (47), 13289-13294, 2016
2582016
Red cells’ dynamic morphologies govern blood shear thinning under microcirculatory flow conditions
L Lanotte, J Mauer, S Mendez, DA Fedosov, JM Fromental, V Claveria, ...
Proceedings of the National Academy of Sciences 113 (47), 13289-13294, 2016
2552016
Deformation and dynamics of red blood cells in flow through cylindrical microchannels
DA Fedosov, M Peltomäki, G Gompper
Soft matter 10 (24), 4258-4267, 2014
2132014
Influence of particle size and shape on their margination and wall-adhesion: implications in drug delivery vehicle design across nano-to-micro scale
M Cooley, A Sarode, M Hoore, DA Fedosov, S Mitragotri, AS Gupta
Nanoscale 10 (32), 15350-15364, 2018
2072018
Quantifying the biophysical characteristics of Plasmodium-falciparum-parasitized red blood cells in microcirculation
DA Fedosov, B Caswell, S Suresh, GE Karniadakis
Proceedings of the National Academy of Sciences 108 (1), 35-39, 2011
1962011
Margination of white blood cells in microcapillary flow
DA Fedosov, J Fornleitner, G Gompper
Physical review letters 108 (2), 028104, 2012
1652012
Active particles induce large shape deformations in giant lipid vesicles
HR Vutukuri, M Hoore, C Abaurrea-Velasco, L van Buren, A Dutto, T Auth, ...
Nature 586 (7827), 52-56, 2020
1472020
White blood cell margination in microcirculation
DA Fedosov, G Gompper
Soft matter 10 (17), 2961-2970, 2014
1442014
Multiscale modeling of red blood cell mechanics and blood flow in malaria
DA Fedosov, H Lei, B Caswell, S Suresh, GE Karniadakis
PLoS computational biology 7 (12), e1002270, 2011
1392011
Deterministic lateral displacement: Challenges and perspectives
A Hochstetter, R Vernekar, RH Austin, H Becker, JP Beech, DA Fedosov, ...
ACS nano 14 (9), 10784-10795, 2020
1342020
Flow-Induced Transitions of Red Blood Cell Shapes under Shear
J Mauer, S Mendez, L Lanotte, F Nicoud, M Abkarian, G Gompper, ...
Physical Review Letters 121 (11), 118103, 2018
1272018
Triple-decker: interfacing atomistic–mesoscopic–continuum flow regimes
DA Fedosov, GE Karniadakis
Journal of Computational Physics 228 (4), 1157-1171, 2009
1272009
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