about
Improved biocompatibility and efficient labeling of neural stem cells with poly(L-lysine)-coated maghemite nanoparticles.Similarities and differences between cobalamins and cobaloximes. Accurate structural determination of methylcobalamin and of LiCl- and KCl-containing cyanocobalamins by synchrotron radiation.Superparamagnetic Fe3O4 Nanoparticles: Synthesis by Thermal Decomposition of Iron(III) Glucuronate and Application in Magnetic Resonance Imaging.Improved enzyme-mediated synthesis and supramolecular self-assembly of naturally occurring conjugates of β-sitosterol.Characterization and surface-enhanced Raman spectral probing of silver hydrosols prepared by two-wavelength laser ablation and fragmentation.Insight into the cryopolymerization to form a poly(N-isopropylacrylamide)/clay macroporous gel: structure and phase evolution.Thermoresponsive self-assembly of short elastin-like polypentapeptides and their poly(ethylene glycol) derivatives.Is it possible to measure diameters of metal nanoparticles using BSE imaging in FESEM?Quantification of structural changes of UHMWPE components in total joint replacementsSupport for the initial attachment, growth and differentiation of MG-63 cells: a comparison between nano-size hydroxyapatite and micro-size hydroxyapatite in composites.Simultaneous detection of multiple targets for ultrastructural immunocytochemistry.Temoporfin-loaded 1-tetradecanol-based thermoresponsive solid lipid nanoparticles for photodynamic therapy.Modified glycogen as construction material for functional biomimetic microfibers.Functional polymer hydrogels for embryonic stem cell support.Macroporous Biodegradable Cryogels of Synthetic Poly(α-amino acids).Kinetics and mechanism of the biodegradation of PLA/clay nanocomposites during thermophilic phase of composting process.Influence of Corona Structure on Binding of an Ionic Surfactant in Oppositely Charged Amphiphilic Polyelectrolyte Micelles.Self-assembled anchor layers/polysaccharide coatings on titanium surfaces: a study of functionalization and stability.Silica-coated upconversion lanthanide nanoparticles: The effect of crystal design on morphology, structure and optical properties.(Acridine-N)trichlorogold(III).Comparison of one-step and sequentially irradiated ultrahigh-molecular-weight polyethylene for total joint replacements.Poly(2-hydroxyethyl methacrylate)-based slabs as a mouse embryonic stem cell support.Polystyrene nanofiber materials modified with an externally bound porphyrin photosensitizer.Polyelectrolyte-surfactant complexes formed by poly[3,5-bis(trimethylammoniummethyl)4-hydroxystyrene iodide]-block-poly(ethylene oxide) and sodium dodecyl sulfate in aqueous solutions.Arrays of Ag and Au Nanoparticles with Terpyridine- and Thiophene-Based Ligands: Morphology and Optical Responses.Macroporous hydrogels based on 2-hydroxyethyl methacrylate. Part II. Copolymers with positive and negative charges, polyelectrolyte complexes.Macroporous hydrogels based on 2-hydroxyethyl methacrylate. Part III. Hydrogels as carriers for immobilization of proteins.Fluorescent boronate-based polymer nanoparticles with reactive oxygen species (ROS)-triggered cargo release for drug-delivery applications.Simple colorimetric methods for determination of sub-milligram amounts of ultra-high molecular weight polyethylene wear particles.The relationship of polyethylene wear to particle size, distribution, and number: A possible factor explaining the risk of osteolysis after hip arthroplasty.Silica-modified monodisperse hexagonal lanthanide nanocrystals: synthesis and biological properties.Porous Heat-treated Polyacrylonitrile Scaffolds for Bone Tissue Engineering.Structural changes of UHMWPE after e-beam irradiation and thermal treatment.Macroporous hydrogels based on 2-hydroxyethyl methacrylate. Part 5: hydrolytically degradable materials.Application of colloidal palladium nanoparticles for labeling in electron microscopy.Composite particles formed by complexation of poly(methacrylic acid) - stabilized magnetic fluid with chitosan: Magnetic material for bioapplications.Enamel apatite crystallinity significantly contributes to mammalian dental adaptations.A new route for chitosan immobilization onto polyethylene surface.Nanostructure of hyaluronan acyl-derivatives in the solid state.Formation of core/corona nanoparticles with interpolyelectrolyte complex cores in aqueous solution: insight into chain dynamics in the complex from fluorescence quenching
P50
Q30376135-81081CB4-3349-4F64-BB49-0D3B7356E1C9Q30631708-E72B865A-35CF-46D8-9616-D42EAA49E739Q31050584-9997181E-E2A3-4E64-860F-C3D424391C74Q31131916-71BEC57C-9A0D-4980-A1D2-F4AC919BE4B3Q31153358-790CBAF0-2E74-495F-BC19-E1B016237BCAQ31156413-C26D385A-416C-47F3-AB12-E7BC1B8B7987Q33269780-737B021D-BC64-49EC-9886-A3728340C241Q34329838-7792CCBD-29E8-47A8-A6F3-ADAFBBADE146Q35134249-6E6BE104-DBE4-453A-B0D4-7813E1C35AEDQ38965794-91F965EF-F06F-4476-9054-19BFC274F850Q39032089-745A9619-58D4-48C7-8DA1-8BB1238E1411Q39396612-DAB98CE0-36DA-4486-89D1-7DF4514A866EQ39497156-4C212876-5657-4D90-8060-F26A10D37707Q40389111-81BBE35B-99F9-43D6-A19C-CDDEA152F294Q40423536-5ED9069E-ED36-47B9-A011-BE8928F43998Q40932621-EC0E9B8E-A5BB-4E54-BA77-2F669AEF9AFDQ41602257-813000C7-2E4B-47A7-9CB9-EA3D0309F213Q42008096-232FE375-4FCD-4E40-811D-D463742F3DBBQ42153904-FA9986C5-8176-41CC-941C-E03C36B84C34Q43543276-9366C3D7-8EDE-4382-8099-A869BB973B0EQ44408983-837961E5-B921-4098-8CF1-62654AAD8D22Q44863470-25F1E590-F10D-481F-8342-7D4496030831Q45283992-D21E3E3C-D425-41DD-9B3C-5EF70DB469ADQ45956822-00C3368E-F0F4-4C49-8491-74C9640765B6Q46380891-F9E87671-487C-4A24-8342-05DD616C09F9Q46555759-862E8770-5275-480B-9870-A00F584983F1Q46555763-E9738687-221F-4AEE-8B7F-84CE790CBCBDQ46582331-983AC42F-2FFD-4832-A23E-18F9EBAA1C16Q47329110-47DA8CC3-F826-4D09-BFC9-D99C6C355BDCQ47429529-0348E864-04DD-4D87-9C2B-57120A32269EQ48353971-A18A6848-1BB9-426A-B387-FFC422636EB6Q50045141-B3A390AA-775D-4CAC-825A-C187B946949FQ50913039-A6E89F08-4375-4352-A33A-4373C5A5B9E0Q51098198-983A3433-3580-44CA-8B2C-9052C85033FAQ51416440-4E8A83E1-0852-4F8E-A072-B9AA1B5F075FQ51709231-DD92FE66-DDE8-4F71-B6D7-C06D7C93B588Q52332897-C6E50BEF-D40A-4D9F-B4C2-E582FD677A36Q54329113-08CF6426-1189-46CE-80CF-DFBD6A8A1537Q54643668-2287C9DF-7DAF-4FD8-9DE3-4C2C32A6AAD2Q57348277-5488CFB9-BED4-477C-A8E0-B548FBCA28F1
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Miroslav Slouf
@ast
Miroslav Slouf
@en
Miroslav Slouf
@es
Miroslav Slouf
@nl
Miroslav Slouf
@sl
type
label
Miroslav Slouf
@ast
Miroslav Slouf
@en
Miroslav Slouf
@es
Miroslav Slouf
@nl
Miroslav Slouf
@sl
prefLabel
Miroslav Slouf
@ast
Miroslav Slouf
@en
Miroslav Slouf
@es
Miroslav Slouf
@nl
Miroslav Slouf
@sl
P1053
F-6311-2012
P106
P1153
6603625366
P21
P31
P3829
P3835
miroslav-slouf
P496
0000-0003-1528-802X