| Poly (amino acid)‐based fibrous scaffolds modified with surface‐pendant peptides for cartilage tissue engineering J Svobodová, V Proks, Ö Karabiyik, AC Çalıkoğlu Koyuncu, G Torun Köse, ... Journal of Tissue Engineering and Regenerative Medicine 11 (3), 831-842, 2017 | 27 | 2017 |
| Colloidally stable polypeptide‐based nanogel: Study of enzyme‐mediated nanogelation in inverse miniemulsion J Dvořáková, P Šálek, L Korecká, E Pavlova, P Černoch, O Janoušková, ... Journal of Applied Polymer Science 137 (21), 48725, 2020 | 14 | 2020 |
| Enzymatically Cross-linked Hydrogels Based on Synthetic Poly (α-amino acid) s Functionalized with RGD Peptide for 3D Mesenchymal Stem Cell Culture J Dvořáková, J Trousil, B Podhorská, Z Mikšovská, O Janoušková, ... Biomacromolecules 22 (4), 1417-1431, 2021 | 12 | 2021 |
| Polyglutamate copolymers as a tissue-engineering platform: Polymer scaffold modification through aminolysis of poly (γ-benzyl-l-glutamate-co-2, 2, 2-γ-trichlorethyl-l-glutamate) J Svobodová, F Rypáček European polymer journal 48 (1), 183-190, 2012 | 12 | 2012 |
| Poly (amino acid)-based nanogel by horseradish peroxidase catalyzed crosslinking in an inverse miniemulsion Š Petr, D Jana, Č Peter, P Ewa, P Vladimír Colloid and Polymer Science 296 (6), 995-1003, 2018 | 11 | 2018 |
| Biocompatible polypeptide nanogel: Effect of surfactants on nanogelation in inverse miniemulsion, in vivo biodistribution and blood clearance evaluation D Oleshchuk, P Šálek, J Dvořáková, J Kučka, E Pavlova, P Francová, ... Materials Science and Engineering: C 126, 111865, 2021 | 8 | 2021 |
| Zwitterionic polyaspartamides based on L-lysine side-chain moieties: Synthesis, nonfouling properties and direct/indirect nanogel preparation S Hladysh, D Oleshchuk, J Dvořáková, A Golunova, P Šálek, J Pánek, ... European Polymer Journal 148, 110347, 2021 | 7 | 2021 |
| Comparison of carboxybetaine with sulfobetaine polyaspartamides: Nonfouling properties, hydrophilicity, cytotoxicity and model nanogelation in an inverse miniemulsion S Hladysh, D Oleshchuk, J Dvořáková, I Šeděnková, M Filipová, ... Journal of Applied Polymer Science 139 (19), 52099, 2022 | 4 | 2022 |
| Iron oxide nanozyme as catalyst of nanogelation P Šálek, A Golunova, J Dvořáková, E Pavlova, H Macková, V Proks Materials Letters 269, 127610, 2020 | 3 | 2020 |
| Preparation of poly (ε-caprolactone) and its nanocomposites in ε-caprolactam J Kredatusová, J Svobodová, J Brožek e-Polymers 8 (1), 2008 | 2 | 2008 |
| Stimuli-responsive polypeptide nanogels for trypsin inhibition P Šálek, J Dvořáková, S Hladysh, D Oleshchuk, E Pavlova, J Kučka, ... Beilstein Journal of Nanotechnology 13 (1), 538-548, 2022 | 1 | 2022 |
| Solid Phase Peptide Radiolabeling: An Efficient Method for the Radio-iodination of the Biomimetic Ligands V Proks, J Kučka, O Pop-Georgievski, J Svobodová, T Sedlačík, ... New Biotechnology 29, S154, 2012 | 1 | 2012 |
| Stimuli-responsive polypeptide nanogels loaded with α1-antitrypsin for inhibition of inflammatory mediator trypsin P Šálek, J Dvořáková, S Hladysh, D Oleshchuk, E Pavlova, J Kučka, ... Beilstein Archives 2021 (1), 91, 2021 | | 2021 |
| Iron oxide nanozyme as catalyst of nanogelation S Petr, G Anna, D Jana, P Ewa, M Hana, P Vladimir MATERIALS LETTERS 269, 2020 | | 2020 |
Vladimir ProksInstitute of the Macromolecular ChemistryE-mailová adresa ověřena na: imc.cas.cz
