about
Sensing surface morphology of biofibers by decorating spider silk and cellulosic filaments with nematic microdroplets.Light-driven oscillations of entangled nematic colloidal chains.Reconfigurable knots and links in chiral nematic colloids.Assembly and control of 3D nematic dipolar colloidal crystals.Three-dimensional colloidal crystals in liquid crystalline blue phasesGeneration of vector beams with liquid crystal disclination lines.Fractal nematic colloids.Quasicrystalline tilings with nematic colloidal platelets.Electric field generation of Skyrmion-like structures in a nematic liquid crystalJanus Nematic Colloids with Designable Valence.Templated blue phases.Tunable photonic crystals with partial bandgaps from blue phase colloidal crystals and dielectric-doped blue phases.Mesoscopic modelling of colloids in chiral nematics.Sensing and tuning microfiber chirality with nematic chirogyral effect.Relevance of saddle-splay elasticity in complex nematic geometries.Particles with changeable topology in nematic colloids.Chiral bipolar colloids from nonchiral chromonic liquid crystals.Mutually tangled colloidal knots and induced defect loops in nematic fields.Liquid crystal microfluidics for tunable flow shaping.Active nematic emulsions.Anisotropy in the annihilation dynamics of umbilic defects in nematic liquid crystalsConfined Active Nematic Flow in Cylindrical CapillariesConfining blue phase colloids to thin layersBlue phases as templates for 3D colloidal photonic crystalsHigh-order elastic multipoles as colloidal atomsTwo-dimensional nematic colloidal crystals self-assembled by topological defectsElectrically tunable diffraction of light from 2D nematic colloidal crystalsDefect trajectories in nematic shells: role of elastic anisotropy and thickness heterogeneityNematic colloidal knots in topological environmentsCharacterisation of protein aggregation with the Smoluchowski coagulation approach for use in biopharmaceuticalsPhotonic properties of heliconical liquid crystalsDesigned self-assembly of metamaterial split-ring colloidal particles in nematic liquid crystalsField generated nematic microflows via backflow mechanismLensing and waveguiding in birefringent double-twist cylinders demonstrated using FDTD simulations
P50
Q27318043-EBC6B11D-D5A8-46C5-9D02-4672C0B6D477Q33740679-3BF4411A-EE6A-48E4-AE7D-89EDFA104273Q33947730-56D00B30-206E-4CCB-A13C-56969984C3FAQ34583507-B4AC89F0-1207-4E66-A6BA-A7EBC2FEEAA0Q34750068-C7937295-04CC-456C-8A85-DD34733E1DC0Q35250027-320D5959-71D1-4BD1-B7AF-D00F87B9E907Q36258453-4AA9D7E8-44B6-4814-8FBD-0A1ECA19331AQ37599785-E696BA87-2607-4B3B-B98C-9ACE549C695BQ42105204-4DB60010-F1A1-47F1-9D47-3A78B8755A82Q42227405-38200838-E94F-401C-BEA6-9FF9B3CA8234Q50209225-9EC9B7FE-A641-491D-87EE-65ED157DC1A6Q50426323-70441099-9074-41A8-BD24-FE2CC0F498B1Q50447485-96E06A37-0462-45C4-8C18-53C0449958A4Q50666566-48C525C7-31AB-4D19-ACEC-B855E491AA7DQ50765366-673E9738-B987-4188-AD82-2110388A9325Q50865036-877A2E01-09DF-4CE2-9D92-D803D52FFC17Q51067713-AB75FD4D-1292-43CA-BD51-D36695AF8DFBQ51126116-57F62198-066F-427F-9A58-245A8A9B1FB0Q51274708-5EB7B696-1192-4949-95B4-FE726C3B89FAQ55092951-4B1AE91B-BA1B-46EA-8888-14BEDB73C9B9Q57128067-8C9071B5-E060-4989-BB52-6A2551321378Q59675456-C41CCF9A-0222-49A4-97B1-617CB9FAA013Q59675500-3CF5168F-5AE1-4D34-8842-03CC7F8A8A50Q59675511-54D21A51-AB6E-4726-9A3D-68573598C932Q64097647-72BA47AD-7DFA-4045-9FE5-C70F1DF76C81Q80134535-ED89C1E7-196B-4893-BA33-42DEA63A03B8Q83381747-0BC87E04-6B04-44CD-873E-3F3A976794B5Q87365549-BAE37920-D9F0-4ED7-A41D-5C1473524E6AQ88610653-820ED685-F6B7-4397-9DC7-7734F91F28B5Q89417241-C7711721-25AC-45BF-A45C-B53D0EFE39F4Q91301162-5424F488-CA8F-485D-A822-E3E77C1052D6Q91577455-40D9CC23-D1BD-4756-9343-DB9D20FBCA3FQ93039395-2DEDB5B8-556F-434D-B877-419ACD2FAE3AQ93375074-FD4F3179-41AD-4B4D-9479-0F3139DEB496
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Miha Ravnik
@ast
Miha Ravnik
@en
Miha Ravnik
@es
Miha Ravnik
@nl
Miha Ravnik
@sl
type
label
Miha Ravnik
@ast
Miha Ravnik
@en
Miha Ravnik
@es
Miha Ravnik
@nl
Miha Ravnik
@sl
prefLabel
Miha Ravnik
@ast
Miha Ravnik
@en
Miha Ravnik
@es
Miha Ravnik
@nl
Miha Ravnik
@sl
P106
P31
P496
0000-0001-8883-9318