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Olivera Korculanin
Olivera Korculanin
Verified email at fz-juelich.de
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Year
When bigger is faster: A self-Van Hove analysis of the enhanced self-diffusion of non-commensurate guest particles in smectics
MP Lettinga, L Alvarez, O Korculanin, E Grelet
The journal of chemical physics 154 (20), 2021
62021
Probing nonlinear velocity profiles of shear-thinning, nematic platelet dispersions in Couette flow using x-ray photon correlation spectroscopy
Y Chen, O Korculanin, S Narayanan, J Buitenhuis, SA Rogers, RL Leheny, ...
Physics of fluids 33 (6), 2021
52021
Anomalous structural response of nematic colloidal platelets subjected to large amplitude stress oscillations
O Korculanin, D Hermida-Merino, H Hirsemann, B Struth, SA Rogers, ...
Physics of fluids 29 (2), 2017
52017
Uncovering log jamming in semidilute suspensions of quasi-ideal rods
S Abakumov, O Deschaume, C Bartic, C Lang, O Korculanin, JKG Dhont, ...
Macromolecules 54 (20), 9609-9617, 2021
42021
Competition between red blood cell aggregation and breakup: depletion force due to filamentous viruses vs. Shear flow
O Korculanin, T Kochetkova, MP Lettinga
Frontiers in Physics 9, 721368, 2021
22021
Anomalous dynamic response of nematic platelets studied by spatially resolved rheo-small angle x-ray scattering in the 1–2 plane
O Korculanin, F Westermeier, H Hirsemann, B Struth, D Hermida-Merino, ...
Physics of fluids 33 (12), 2021
12021
Effect of in-plane and out-of-plane bifurcated microfluidic channels on the flow of aggregating red blood cells
A Gholivand, O Korculanin, K Dahlhoff, M Babaki, T Dickscheid, ...
Lab on a Chip, 2024
2024
Disk-like Particles under Shear Flow: Understanding the physics behind yielding of colloidal disks in the nematic phase and the mechanics of red blood cell (dis) aggregation
O Korculanin
2021
Investigating the red blood cell (dis) aggregation mechanism by means of optical tweezers
F Yaya, O Korculanin, M Babaki, P Lettinga, C Wagner, K Lee
Biorheology 58 (3-4), 135-135, 2021
2021
Anomalous rheological response of nematic platelets studied by 3D Rheo-SAXS and XPCS
MP Lettinga, O Korculanin
International Congress on Rheology 2020, 2020
2020
Bioinorganic platelet/fiber multilayered architectures: Organization in suspended and dried states
O Deschaume, S Abakumov, O Korculanin, C Bartic, P Lettinga
EMRS Spring Meeting, Date: 2017/09/22-2017/09/26, Location: Strasbourg, France, 2017
2017
Anomalous response of nematic platelets under LAOStress and Strain revealed by 3D RheoSAXS
O Korculanin, H Hirsemann, B Struth, G Portale, MP Lettinga
APS March Meeting Abstracts 2016, L53. 001, 2016
2016
Anomalous response of nematic platelets under LAOStress and Strain revealed by 3D Rheo-SAXS
MP Lettinga, O Korculanin, H Merino
The XVIIth International Congress on Rheology, 2016
2016
Experiment title: Vertical-beam Rheo-SAXS on colloidal platelets and complex polymers
MP Lettinga, O Korculanin, F Westermeier, H Graafsma, G Baeza, ...
Photogrammetrische Rekonstruktion von Partikelpositionen mittels Rückprojektion für 3D-PIV
S Kallweit, O Korculanin, F Fröhlig, M Gabi, P Mattern
AFM investigation of multi-layered, bioinorganic plate/rod assemblies
O Deschaume, S Abakumov, O Korculanin, MP Lettinga, C Bartic
Adaption und Implementierung eines 3D-PIV Algorithmus auf mas-siv paralleler Hardware
S Kallweit, O Tedjasukmana, O Korculanin
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