about
Biospectroscopy of Nanodiamond-Induced Alterations in Conformation of Intra- and Extracellular Proteins: A Nanoscale IR Study.Cell patterning via linker-free protein functionalization of an organic conducting polymer (polypyrrole) electrode.Free radical functionalization of surfaces to prevent adverse responses to biomedical devices.The use of plasma-activated covalent attachment of early domains of tropoelastin to enhance vascular compatibility of surfaces.Plasma-based biofunctionalization of vascular implants.Electrically conductive hexagonally ordered nanoporous membranes produced by ion-beam induced carbonization of block-copolymer precursors.Large-size space laboratory for biological orbit experiments.Ion-implanted polytetrafluoroethylene enhances Saccharomyces cerevisiae biofilm formation for improved immobilization.Ion implantation treatment of beads for covalent binding of molecules: application to bioethanol production using thermophilic beta-glucosidase.Substrate elasticity provides mechanical signals for the expansion of hemopoietic stem and progenitor cells.Calcium phosphate formation on plasma immersion ion implanted low density polyethylene and polytetrafluorethylene surfaces.Influence of pH on yeast immobilization on polystyrene surfaces modified by energetic ion bombardment.Effect of plasma immersion ion implantation on polycaprolactone with various molecular weights and crystallinity.Effect of low molecular weight additives on immobilization strength, activity, and conformation of protein immobilized on PVC and UHMWPE.Attachment of horseradish peroxidase to polytetrafluorethylene (teflon) after plasma immersion ion implantation.A sterilizable, biocompatible, tropoelastin surface coating immobilized by energetic ion activation.Plasma mediated protein immobilisation enhances the vascular compatibility of polyurethane with tissue matched mechanical properties.Immobilization of bioactive plasmin reduces the thrombogenicity of metal surfaces.EPDM Rubber Modified by Nitrogen Plasma Immersion Ion Implantation.Plasma Ion Implantation of Silk Biomaterials Enabling Direct Covalent Immobilization of Bioactive Agents for Enhanced Cellular ResponsesA facile method to in situ formation of hydroxyapatite single crystal architecture for enhanced osteoblast adhesionPlasma-Activated Tropoelastin Functionalization of Zirconium for Improved Bone Cell ResponseBio-functionalisation of polyether ether ketone using plasma immersion ion implantationPlasma Ion Activated Expanded Polytetrafluoroethylene Vascular Grafts with a Covalently Immobilized Recombinant Human Tropoelastin Coating Reducing Neointimal HyperplasiaDepth-Resolved Structural and Compositional Characterization of Ion-Implanted Polystyrene that Enables Direct Covalent Immobilization of BiomoleculesSurface plasma modification and tropoelastin coating of a polyurethane co-polymer for enhanced cell attachment and reduced thrombogenicityImmobilisation of a fibrillin-1 fragment enhances the biocompatibility of PTFEUniversal Biomolecule Binding Interlayers Created by Energetic Ion BombardmentIon implanted, radical-rich surfaces for the rapid covalent immobilization of active biomoleculesThe attachment of catalase and poly-l-lysine to plasma immersion ion implantation-treated polyethyleneIncreasing binding density of yeast cells by control of surface charge with allylamine grafting to ion modified polymer surfacesPlasma processing of PDMS based spinal implants for covalent protein immobilization, cell attachment and spreadingPlasma-Activated Substrate with a Tropoelastin Anchor for the Maintenance and Delivery of Multipotent Adult Progenitor Cells
P50
Q30390227-9DEB5BDA-C1AD-48AB-9898-1968A08DFD54Q34198930-69E072B1-E2E7-4F6B-9653-5B1EA365FC8CQ35197881-3D97F740-42CF-4486-8C53-AB10C3F7DCAEQ37135523-475A9DDA-CE6E-4DF7-B22B-648E4211CB3DQ38068246-DA2BEA42-F1B2-48F1-8DBF-EC803097E426Q39988620-4F774393-3710-4715-BF93-B7175DBF180EQ40665103-F6E7D272-697D-43D8-8B7D-BE1557F746E8Q42407652-05D533C2-DA66-4889-9C86-8641FC7E7974Q43020092-6B93F5A7-C9F9-4901-828A-5EE65C167C4CQ43964124-101047E8-D524-4F7F-BBEA-73AA06D0F38AQ46279384-76D1EF1F-34B5-49FD-8F04-248743A8CB37Q46318192-D4BB9FBA-D5F5-449F-9EC5-BE1C39DD705FQ47247693-6FE4543B-3971-4349-AFDA-02B3060AA881Q47381194-3B76796C-2FD9-4936-8000-F38507A99699Q47667837-273E51B6-2CA0-42CA-A059-D6B345A0D910Q48259747-D87414C1-0DFE-440C-9691-975078D394BCQ51039232-BF1604AA-E710-4DCF-8232-154173F70313Q51652188-E4A527BF-D516-4B15-AE31-8B4175138922Q55213977-CCA92564-10D9-49FE-9503-D85393D04865Q57215218-A4E02E7D-45AF-47B2-872D-FA0EEFB2FF51Q57376569-9231EF16-CE6D-438C-91C7-009BB82E267BQ59737189-24774986-7ECB-47F9-8ADC-CD220A8759CEQ59737239-D8A78642-C771-40CE-9CFF-D3F27151ACAFQ63990935-9F9931AA-398D-4EA5-94DF-2946808308B6Q63990938-B7C46949-C9AC-4392-8C26-BA7E60266DD0Q63990939-6DD24581-570B-49FB-ABB7-68C054911DFCQ63990941-F9BF7B27-4CD4-474B-AF32-CFCE370E5FBFQ63990963-A90B37AD-50B7-48EF-BF77-48BB49CC36D3Q63991028-6A4E00D3-5FCE-4587-BC14-5DE12903C23FQ80125314-038D4C10-FAB6-4789-A779-7933DB8D6164Q87503778-620D0C2D-EB88-4FBB-9EC9-69B9C79A2C99Q90101571-C94B31BA-C612-428B-9BB4-C81AE1FFBA0FQ91726962-38ACF37F-609B-4586-87F9-B3BF8A614860
P50
description
Russisch onderzoeker
@nl
researcher
@en
советский и австралийский учёный
@ru
հետազոտող
@hy
name
Alexey Kondyurin
@ast
Alexey Kondyurin
@en
Alexey Kondyurin
@es
Alexey Kondyurin
@nl
Алексей Викторович Кондюрин
@ru
type
label
Alexey Kondyurin
@ast
Alexey Kondyurin
@en
Alexey Kondyurin
@es
Alexey Kondyurin
@nl
Алексей Викторович Кондюрин
@ru
altLabel
Алексей Кондюрин
@ru
Кондюрин, Алексей Викторович
@ru
prefLabel
Alexey Kondyurin
@ast
Alexey Kondyurin
@en
Alexey Kondyurin
@es
Alexey Kondyurin
@nl
Алексей Викторович Кондюрин
@ru
P108
P2650
P214
P103
P1412
P21
P214
P31
P496
0000-0002-8837-9734
P5163
348416593669
P569
1962-10-09T00:00:00Z
P735
P7859
lccn-no2004119629