Search
| Leader | 00000nz a2200037n 45 0 | ||
|---|---|---|---|
| 001 | WKP|Q47503491 (VIAF cluster) (Authority/Source Record) | ||
| 003 | WKP | ||
| 005 | 20241221010838.0 | ||
| 008 | 241221nneanz||abbn n and d | ||
| 035 | ‡a (WKP)Q47503491 | ||
| 024 | ‡a 0000-0002-7232-3998 ‡2 orcid | ||
| 024 | ‡a 55143920600 ‡2 scopus | ||
| 035 | ‡a (OCoLC)Q47503491 | ||
| 100 | 0 | ‡a Maria Godoy-Gallardo ‡9 ast ‡9 es ‡9 sl | |
| 375 | ‡a 2 ‡2 iso5218 | ||
| 400 | 0 | ‡a Maria Godoy-Gallardo ‡c researcher ‡9 en | |
| 400 | 0 | ‡a Maria Godoy-Gallardo ‡c wetenschapper ‡9 nl | |
| 670 | ‡a Author's Anhydride-functional silane immobilized onto titanium surfaces induces osteoblast cell differentiation and reduces bacterial adhesion and biofilm formation. | ||
| 670 | ‡a Author's Antibacterial coatings on titanium surfaces: a comparison study between in vitro single-species and multispecies biofilm. | ||
| 670 | ‡a Author's Antibacterial properties of hLf1-11 peptide onto titanium surfaces: a comparison study between silanization and surface initiated polymerization | ||
| 670 | ‡a Author's Antibacterial Properties of Triethoxysilylpropyl Succinic Anhydride Silane (TESPSA) on Titanium Dental Implants | ||
| 670 | ‡a Author's Covalent immobilization of hLf1-11 peptide on a titanium surface reduces bacterial adhesion and biofilm formation | ||
| 670 | ‡a Author's Evaluation of bone loss in antibacterial coated dental implants: An experimental study in dogs | ||
| 670 | ‡a Author's Fibroblast adhesion and activation onto micro-machined titanium surfaces | ||
| 670 | ‡a Author's Immobilization of BMP-2 and VEGF within Multilayered Polydopamine-Coated Scaffolds and the Resulting Osteogenic and Angiogenic Synergy of Co-Cultured Human Mesenchymal Stem Cells and Human Endothelial Progenitor Cells | ||
| 670 | ‡a Author's Interaction between drug delivery vehicles and cells under the effect of shear stress. | ||
| 670 | ‡a Author's Intracellular Microreactors as Artificial Organelles to Conduct Multiple Enzymatic Reactions Simultaneously | ||
| 670 | ‡a Author's Multicompartment Artificial Organelles Conducting Enzymatic Cascade Reactions inside Cells. | ||
| 670 | ‡a Author's One-Pot Green Synthesis of Biocompatible Graphene Quantum Dots and Their Cell Uptake Studies | ||
| 670 | ‡a Author's Recent advances in compartmentalized synthetic architectures as drug carriers, cell mimics and artificial organelles. | ||
| 670 | ‡a Author's Recent Progress in Micro/Nanoreactors toward the Creation of Artificial Organelles | ||
| 670 | ‡a Author's S. sanguinis adhesion on rough titanium surfaces: effect of culture media. | ||
| 670 | ‡a Author's Shear stress regulated uptake of liposome-decorated microgels coated with a poly | ||
| 670 | ‡a Author's Shear stress regulated uptake of liposome-decorated microgels coated with a poly(dopamine) shell | ||
| 670 | ‡a Author's Silver deposition on titanium surface by electrochemical anodizing process reduces bacterial adhesion of Streptococcus sanguinis and Lactobacillus salivarius. | ||
| 670 | ‡a Author's The effect of unsaturated fatty acid and triglyceride oil addition on the mechanical and antibacterial properties of acrylic bone cements. | ||
| 670 | ‡a Author's Tyrosinase-Loaded Multicompartment Microreactor toward Melanoma Depletion | ||
| 909 | ‡a (orcid) 0000000272323998 ‡9 1 | ||
| 909 | ‡a (scopus) 55143920600 ‡9 1 | ||
| 919 | ‡a tyrosinaseloadedmulticompartmentmicroreactortowardmelanomadepletion ‡A Tyrosinase-Loaded Multicompartment Microreactor toward Melanoma Depletion ‡9 1 | ||
| 919 | ‡a effectofunsaturatedfattyacidandtriglycerideoiladditiononthemechanicalandantibacterialpropertiesofacrylicbonecements ‡A The effect of unsaturated fatty acid and triglyceride oil addition on the mechanical and antibacterial properties of acrylic bone cements. ‡9 1 | ||
| 919 | ‡a silverdepositionontitaniumsurfacebyelectrochemicalanodizingprocessreducesbacterialadhesionofstreptococcussanguinisandlactobacillussalivarius ‡A Silver deposition on titanium surface by electrochemical anodizing process reduces bacterial adhesion of Streptococcus sanguinis and Lactobacillus salivarius. ‡9 1 | ||
| 919 | ‡a shearstressregulateduptakeofliposomedecoratedmicrogelscoatedwithapolydopamineshell ‡A Shear stress regulated uptake of liposome-decorated microgels coated with a poly(dopamine) shell ‡9 1 | ||
| 919 | ‡a shearstressregulateduptakeofliposomedecoratedmicrogelscoatedwithapoly ‡A Shear stress regulated uptake of liposome-decorated microgels coated with a poly ‡9 1 | ||
| 919 | ‡a ssanguinisadhesiononroughtitaniumsurfaceseffectofculturemedia ‡A S. sanguinis adhesion on rough titanium surfaces: effect of culture media. ‡9 1 | ||
| 919 | ‡a recentprogressinmicronanoreactorstowardthecreationofartificialorganelles ‡A Recent Progress in Micro/Nanoreactors toward the Creation of Artificial Organelles ‡9 1 | ||
| 919 | ‡a recentadvancesincompartmentalizedsyntheticarchitecturesasdrugcarrierscellmimicsandartificialorganelles ‡A Recent advances in compartmentalized synthetic architectures as drug carriers, cell mimics and artificial organelles. ‡9 1 | ||
| 919 | ‡a 1potgreensynthesisofbiocompatiblegraphenequantumdotsandtheircelluptakestudies ‡A One-Pot Green Synthesis of Biocompatible Graphene Quantum Dots and Their Cell Uptake Studies ‡9 1 | ||
| 919 | ‡a multicompartmentartificialorganellesconductingenzymaticcascadereactionsinsidecells ‡A Multicompartment Artificial Organelles Conducting Enzymatic Cascade Reactions inside Cells. ‡9 1 | ||
| 919 | ‡a intracellularmicroreactorsasartificialorganellestoconductmultipleenzymaticreactionssimultaneously ‡A Intracellular Microreactors as Artificial Organelles to Conduct Multiple Enzymatic Reactions Simultaneously ‡9 1 | ||
| 919 | ‡a interactionbetweendrugdeliveryvehiclesandcellsundertheeffectofshearstress ‡A Interaction between drug delivery vehicles and cells under the effect of shear stress. ‡9 1 | ||
| 919 | ‡a immobilizationofbmp2andvegfwithinmultilayeredpolydopaminecoatedscaffoldsandtheresultingosteogenicandangiogenicsynergyofcoculturedhumanmesenchymalstemcellsandhumanendothelialprogenitorcells ‡A Immobilization of BMP-2 and VEGF within Multilayered Polydopamine-Coated Scaffolds and the Resulting Osteogenic and Angiogenic Synergy of Co-Cultured Human Mesenchymal Stem Cells and Human Endothelial Progenitor Cells ‡9 1 | ||
| 919 | ‡a fibroblastadhesionandactivationontomicromachinedtitaniumsurfaces ‡A Fibroblast adhesion and activation onto micro-machined titanium surfaces ‡9 1 | ||
| 919 | ‡a evaluationofbonelossinantibacterialcoateddentalimplantsanexperimentalstudyindogs ‡A Evaluation of bone loss in antibacterial coated dental implants: An experimental study in dogs ‡9 1 | ||
| 919 | ‡a covalentimmobilizationofhlf111peptideonatitaniumsurfacereducesbacterialadhesionandbiofilmformation ‡A Covalent immobilization of hLf1-11 peptide on a titanium surface reduces bacterial adhesion and biofilm formation ‡9 1 | ||
| 919 | ‡a antibacterialpropertiesoftriethoxysilylpropylsuccinicanhydridesilanetespsaontitaniumdentalimplants ‡A Antibacterial Properties of Triethoxysilylpropyl Succinic Anhydride Silane (TESPSA) on Titanium Dental Implants ‡9 1 | ||
| 919 | ‡a antibacterialpropertiesofhlf111peptideontotitaniumsurfacesacomparisonstudybetweensilanizationandsurfaceinitiatedpolymerization ‡A Antibacterial properties of hLf1-11 peptide onto titanium surfaces: a comparison study between silanization and surface initiated polymerization ‡9 1 | ||
| 919 | ‡a antibacterialcoatingsontitaniumsurfacesacomparisonstudybetweeninvitrosinglespeciesandmultispeciesbiofilm ‡A Antibacterial coatings on titanium surfaces: a comparison study between in vitro single-species and multispecies biofilm. ‡9 1 | ||
| 919 | ‡a anhydridefunctionalsilaneimmobilizedontotitaniumsurfacesinducesosteoblastcelldifferentiationandreducesbacterialadhesionandbiofilmformation ‡A Anhydride-functional silane immobilized onto titanium surfaces induces osteoblast cell differentiation and reduces bacterial adhesion and biofilm formation. ‡9 1 | ||
| 946 | ‡a a ‡9 1 | ||
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| 996 | ‡2 BNE|XX4663668 | ||
| 996 | ‡2 BNE|XX1241277 | ||
| 996 | ‡2 BNE|XX1671318 | ||
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| 996 | ‡2 SUDOC|270931007 | ||
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| 996 | ‡2 LC|no2021114207 | ||
| 996 | ‡2 SUDOC|250966565 | ||
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| 996 | ‡2 ISNI|0000000059444512 | ||
| 996 | ‡2 LC|n 2002108189 | ||
| 996 | ‡2 DNB|1157384323 | ||
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| 996 | ‡2 BNCHL|10000000000000000057075 | ||
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| 996 | ‡2 DNB|130262412 | ||
| 996 | ‡2 BNE|XX833973 | ||
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| 996 | ‡2 ISNI|0000000059443528 | ||
| 996 | ‡2 LC|no2023058990 | ||
| 996 | ‡2 LC|nr2001029020 | ||
| 996 | ‡2 ISNI|000000003460548X | ||
| 996 | ‡2 NUKAT|n 2015069253 | ||
| 996 | ‡2 BNC|981058510284006706 | ||
| 996 | ‡2 PLWABN|9810531937505606 | ||
| 996 | ‡2 J9U|987007403869905171 | ||
| 996 | ‡2 ARBABN|000041666 | ||
| 996 | ‡2 BNE|XX1009009 | ||
| 996 | ‡2 ISNI|0000000410068383 | ||
| 996 | ‡2 ISNI|0000000040505805 | ||
| 996 | ‡2 LC|nb2018015827 | ||
| 996 | ‡2 BNE|XX1755074 | ||
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| 996 | ‡2 LC|no2023116356 | ||
| 996 | ‡2 LC|n 95094418 | ||
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| 996 | ‡2 BNE|XX820860 | ||
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| 996 | ‡2 LIH|LNB:C_h_S_q_;=B, | ||
| 996 | ‡2 BLBNB|001472663 | ||
| 996 | ‡2 BNE|XX1394426 | ||
| 996 | ‡2 LC|no2024001918 | ||
| 996 | ‡2 BNE|XX4704031 | ||
| 996 | ‡2 BNCHL|10000000000000000850983 | ||
| 996 | ‡2 SUDOC|13988923X | ||
| 996 | ‡2 BNC|981058513271706706 | ||
| 996 | ‡2 BNE|XX948031 | ||
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| 997 | ‡a 0 0 lived 0 0 ‡9 1 | ||
| 998 | ‡a Godoy Gallardo, Maria ‡2 BNC|981058522373306706 ‡3 standard number |
