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Can mass dissociation patterns of transition-metal complexes be predicted from electrochemical data?N3-dye-induced visible laser anatase-to-rutile phase transition on mesoporous TiO2 films.Ultrasmall cationic superparamagnetic iron oxide nanoparticles as nontoxic and efficient MRI contrast agent and magnetic-targeting tool.Novel therapeutic mechanisms determine the effectiveness of lipid-core nanocapsules on melanoma models.Transition from glass- to gel-like states in clay at a liquid interfaceGold nanoparticle modifies nitric oxide release and vasodilation in rat aortaDesign, syntheses, characterization, and cytotoxicity studies of novel heterobinuclear oxindolimine copper(II)-platinum(II) complexes.Encapsulation of metalloporphyrins improves their capacity to block the viability of the human malaria parasite Plasmodium falciparum.Role of poly(ε-caprolactone) lipid-core nanocapsules on melanoma-neutrophil crosstalk.Surface enhanced Raman scattering spot tests: a new insight on Feigl's analysis using gold nanoparticles.Confocal Raman and electronic microscopy studies on the topotactic conversion of calcium carbonate from Pomacea lineate shells into hydroxyapatite bioceramic materials in phosphate media.Control of cytolocalization and mechanism of cell death by encapsulation of a photosensitizer.Acid-base and spectroelectrochemical properties of doubly N-confused porphyrins.Photoelectrochemical properties of supramolecular species containing porphyrin and ruthenium complexes on TiO(2) films.Evaluation of sun protection factor of cosmetic formulations by a simple visual in vitro method mimicking the in vivo method.A new micro/nanoencapsulated porphyrin formulation for PDT treatment.Probing the binding of tetraplatinum(pyridyl)porphyrin complexes to DNA by means of surface plasmon resonance.Amperometric quantification of sodium metabisulfite in pharmaceutical formulations utilizing tetraruthenated porphyrin film modified electrodes and batch injection analysis.Unveiling the structure of polytetraruthenated nickel porphyrin by Raman spectroelectrochemistry.Pushing the surface-enhanced Raman scattering analyses sensitivity by magnetic concentration: a simple non core-shell approach.Interaction of 2- and 4-mercaptopyridine with pentacyanoferrates and gold nanoparticles.Decorated Superparamagnetic Iron Oxide Nanoparticles with Monoclonal Antibody and Diethylene-Triamine-Pentaacetic Acid Labeled with Thechnetium-99m and Galium-68 for Breast Cancer Imaging.REPLY to Nanomedicine: NMB, 2015; 11:1035.A reliable protocol for colorimetric determination of iron oxide nanoparticle uptake by cells.Supramolecular cationic tetraruthenated porphyrin and light-induced decomposition of 2'-deoxyguanosine predominantly via a singlet oxygen-mediated mechanism.Highly efficient method for production of radioactive silver seed cores for brachytherapy.Polymetallated porphyrin ultrathin films as transducing elements for molecular devices and logic gates.Cobalt oxide/tetraruthenated cobalt-porphyrin composite for hydrogen peroxide amperometric sensors.Unexpected lability of the [RuIII(phtpy)Cl3] complex.Surface enhanced Raman spectroelectrochemistry of a μ-oxo triruthenium acetate cluster: an experimental and theoretical approach.In vivoandIn vitroToxicity and Anti-Inflammatory Properties of Gold Nanoparticle Bioconjugates to the Vascular SystemThiosemicarbazone@Gold nanoparticle hybrid as selective SERS substrate for Hg ionsIdentification of Tobacco Types and Cigarette Brands Using an Electronic Nose Based on Conductive Polymer/Porphyrin Composite SensorsCorrelation of photodynamic activity and singlet oxygen quantum yields in two series of hydrophobic monocationic porphyrinsEffect of cations/polycations on the efficiency of formation of a hybrid bilayer membrane that mimics the inner mitochondrial membraneDetermination of n-octanol/water partition and membrane binding of cationic porphyrinsInteraction of cationic meso-porphyrins with liposomes, mitochondria and erythrocytesPhotochemistry of doubly N-confused porphyrin bonded to non-conventional high oxidation state Ag(III) and Cu(III) ionsSupramolecular cationic tetraruthenated porphyrin induces single-strand breaks and 8-oxo-7,8-dihydro-2'-deoxyguanosine formation in DNA in the presence of lightZinc tetraruthenated porphyrin binding and photoinduced oxidation of calf-thymus DNA
P50
Q33378603-13899927-E0FE-4AF8-8320-D86F3AD77B57Q33943487-9D27221D-61E7-40A3-AA8C-3BBBE9371205Q35914929-A35A0522-5581-4F71-BF9C-5E534B12228AQ36766846-1740E866-1592-42E9-BE36-A1A23EA2FD1BQ37435267-5A242F5B-3874-4F79-99F0-6FEAA7CDD6E8Q38624571-DC6C0AAE-B9C6-4E97-A691-F5495B60262EQ38752993-D4695B27-DD35-4EDC-A0B9-778842D292FAQ41626432-B06BF554-C54D-404F-A1EA-92B4E033ED99Q42280459-954FB9CB-7C01-4D81-AE1C-57AB4BE9182BQ42852998-3D5D4BC6-C0B6-4CF1-99B0-AC8FB32F74C3Q42949111-B2DC5E21-97DF-41D5-B37D-B5F8DF2F2078Q43409866-BCB54E2D-DED0-4420-9D4A-DBAF7643332DQ43576199-6B017D37-332A-42B7-9B00-B7D881465295Q44741968-685E63CB-FF31-47DB-A11B-618DEF2E1DEBQ44748922-7AAB1FCE-461E-43AE-80A7-4415A403A531Q46028517-BA08593D-2A7A-413A-B3D0-749CC1C4274FQ46232677-21CD9BE2-635E-4E0F-A0CA-7DD09C832C9DQ46277727-50946458-A074-4D7B-BAC4-8BA89D95E348Q46753243-88F2B150-21D5-4693-A2B5-3627D52609A2Q46794346-CEC4F549-7629-47C6-A108-EB029F96574DQ46876929-EC0CAEF2-DE63-4200-865A-69989B51CB70Q47197599-8E6C3825-7AA8-42FA-B8BF-2E05100D0515Q47902052-9B738DE1-A730-4B46-B827-C309ED568B97Q50055501-8DAAD92D-E21A-480B-BC72-A09A8E84B9AAQ50521560-CFBB73FB-1D11-4505-8FA9-47DF4B2CE524Q51027482-66575012-DC6B-4143-B10A-22C74B6BAD23Q51123349-DD5F208A-5F9F-4D1A-9604-5FB35DC4A157Q51550240-48F7FC42-0E89-4724-AEEC-667B261A69EDQ52447983-F2BA790A-650F-4CA2-8E3D-3AEA28A994C4Q53342423-94889C5E-7C43-434D-B850-14C328DCB6D4Q57067373-AAFA1A18-E794-4144-97A1-C6677DF36E30Q57128027-68B53CC5-ECEC-414F-A099-01EED613D18AQ58832560-18B847D2-0AA0-4B0F-B3CF-A70E4A8B38E3Q58866478-C26F02D2-4619-4CF6-B5C5-46A84A0D02CAQ58866483-C1B18561-ED5A-41BB-917A-30F7B10C323EQ58866538-30D5D7BC-E1F5-44B9-BA59-182D8D6F3073Q58866542-8B969912-2499-4D6F-B6A5-3EC7A8A3012DQ58866558-50E497EF-97C2-4CD6-B453-9047329771B3Q71706187-96F8B375-910B-44DB-975B-982D9025B1D4Q73904864-E54595A4-A51E-419F-8C6C-E2D7F983D0AB
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Koiti Araki
@ast
Koiti Araki
@en
Koiti Araki
@es
Koiti Araki
@sl
type
label
Koiti Araki
@ast
Koiti Araki
@en
Koiti Araki
@es
Koiti Araki
@sl
prefLabel
Koiti Araki
@ast
Koiti Araki
@en
Koiti Araki
@es
Koiti Araki
@sl
P1053
H-1086-2012
P106
P1153
7402551612
P31
P496
0000-0003-3485-4592