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Kolektivni efekti v aktivni nematski emulziji
ID Trnovec, Nika (Author), ID Šarac, Bojan (Mentor) More about this mentor... This link opens in a new window

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Abstract
Namen diplomske naloge je bil optimizacija aparature za pripravo homogene aktivne nematske emulzije olja v vodi z možnostjo manipuliranja velikosti kapljic v mikro dimenzijah in nato preučiti interakcijo med sosednjimi aktivnimi nematskimi lupinami, ko se majhno število oljnih kapljic razprši v aktivnem gelu in postavi v utesnjen prostor. Za generiranje oljnih kapljic smo uporabili mikrofluidno aparaturo z geometrijo sočasnega toka, ki je bila sestavljena iz steklenih kapilar s krožnim in kvadratnim prerezom, skozi katere so nanofluidne črpalke potiskale različne tekočine. Pričakovali smo, da v zaprtosti običajno neodvisni kortikalni tokovi na ločenih kapljicah doživijo hidrodinamično sklopitev, ki bi lahko vodila do zanimivih sinhronizacijskih pojavov, ki so pomembni za razumevanje organizacije večceličnih struktur.

Language:Slovenian
Keywords:aktivna snov, emulzije, mikrofluidika, nematiki, kolektivni efekti
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2022
PID:20.500.12556/RUL-139577 This link opens in a new window
COBISS.SI-ID:126389251 This link opens in a new window
Publication date in RUL:05.09.2022
Views:605
Downloads:91
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Secondary language

Language:English
Title:Collective effects in active nematic emulsion
Abstract:
The aim of my thesis was optimization of the apparatus for the preparation of a homogeneous active nematic oil-in-water emulsion with the possibility of manipulating the droplet size in micro dimensions and then to study the interaction between neighbouring active nematic shells when a small number of oil droplets is dispersed in the active gel and placed in a confined volume. We used a droplet-generating coflowing device, based on the combination of tapered glass capillaries with circular and square cross section through which different fluids were pushed using nanofluidic pumps. We expected that, under confinement, the normally independent cortical flows in separate droplets experience a hydrodynamical coupling that may lead to interesting synchronization phenomena, which may be relevant to the understanding of the organization of multicellular structures.

Keywords:active matter, emulsions, microfluidics, nematics, collective effects

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