about
An integrated photocatalytic/enzymatic system for the reduction of CO2 to methanol in bioglycerol-water.Structural, Optical, and Magnetic Properties of Zn-Doped CoFe2O4 Nanoparticles.Nanoscale optoelectronic switches and logic devices.Antimicrobial photodynamic therapy-A discovery originating from the pre-antibiotic era in a novel periodontal therapy.Photosensitization of CuI - the role of visible light induced CuI→ CuII transition in photocatalytic degradation of organic pollutants and inactivation of microorganisms.Photocytotoxicity of platinum(IV)-chloride surface modified TiO2 irradiated with visible light against murine macrophages.Periopathogens differ in terms of the susceptibility to toluidine blue O-mediated photodynamic inactivation.New insight into singlet oxygen generation at surface modified nanocrystalline TiO2--the effect of near-infrared irradiation.Chemical composition of submicron and fine particulate matter collected in Krakow, Poland. Consequences for the APARIC project.Solar energy utilization in the direct photocarboxylation of 2,3-dihydrofuran using CO2.Visible light inactivation of bacteria and fungi by modified titanium dioxide.Influence of π-Iodide Intermolecular Interactions on Electronic Properties of Tin(IV) Iodide Semiconducting Complexes.Photocatalytic Carbon Dioxide Reduction at p-Type Copper(I) Iodide.Optoelectronic switches based on wide band gap semiconductors.Visible light induced photocatalytic inactivation of bacteria by modified titanium dioxide films on organic polymers.Highly efficient rutile TiO2 photocatalysts with single Cu(ii) and Fe(iii) surface catalytic sitesHybrid Technologies for an Enhanced Carbon Recycling Based on the Enzymatic Reduction of CO2 to Methanol in Water: Chemical and Photochemical NADH RegenerationRedox-controlled photosensitization of nanocrystalline titanium dioxideSinglet oxygen photogeneration at surface modified titanium dioxidePhotosensitization and the photocurrent switching effect in nanocrystalline titanium dioxide functionalized with iron(II) complexes: a comparative studyLight-driven OR and XOR programmable chemical logic gatesRedox characterization of semiconductors based on electrochemical measurements combined with UV-Vis diffuse reflectance spectroscopyUV and visible light active aqueous titanium dioxide colloids stabilized by surfactantsAttaching titania clusters of various size to reduced graphene oxide and its impact on the conceivable photocatalytic behavior of the junctions-a DFT/D + U and TD DFTB modelingHow To Correctly Determine the Band Gap Energy of Modified Semiconductor Photocatalysts Based on UV-Vis Spectra
P50
Q34463337-C1301C95-734E-4C5F-8FF3-405C8FF5F783Q37656888-7D2A1F8C-C78C-4B39-89D4-35B5353AB2F2Q37774572-BFB92ACA-798C-42A8-9AC8-E27002A2EC7BQ38615321-F1BE57AF-86B0-4130-A042-6FF10FE6BCB2Q38682828-74FEB9FC-2807-4B02-9FD3-F4C773A71270Q39972143-71AA58DA-0296-4533-AC5C-F0AA8108A2C5Q40085535-D5FF1D7E-E154-4F63-8BA4-8E3A37CD6C52Q45752961-A5221FD2-904C-4307-B0E7-8B3A06F669CFQ46312946-A145B21A-15C7-49CB-8D21-D9114A265385Q46668987-1646EFCA-075D-41C0-A25A-CF57B0AFE454Q46763650-64177BAA-8227-4B5F-BC0F-F34F56A06BA8Q50238639-D50DAAC6-1C0D-421B-BC16-44197FF56E1DQ50279294-9FA5A27D-DE9E-4278-939F-83375DBB8DA8Q51152372-DBDD0011-AA43-4A64-BA11-28FE99F499EEQ54161990-AA0DB871-A994-4A4D-8A29-C421ECEDA9ACQ57524285-38FF0267-0F79-479E-8FE8-4371EF337646Q59164109-07B91615-6060-4790-B5D9-9619F42628A5Q79212330-E9BA5524-B880-4680-A41F-410EB3F00225Q79406722-DDEE5C34-4AE9-41C6-BEBB-B30280E3BB70Q80397680-463C9416-9063-4E7F-95C9-64EA212BCED8Q83085793-97BA2720-B73C-441D-8853-50C4B6D39333Q87125410-B9949B54-C60F-40CC-B182-AB71CFA9773AQ87781506-1012BF27-BA9B-42FE-BED3-7544090CFE38Q92940401-ED62B82B-93CF-425A-BA38-DB49D5B6B27FQ93126966-43118B2A-FA90-4699-B10C-521446C5C60C
P50
description
researcher ORCID ID = 0000-0002-1317-6115
@en
name
Wojciech Macyk
@ast
Wojciech Macyk
@en
Wojciech Macyk
@es
Wojciech Macyk
@nl
type
label
Wojciech Macyk
@ast
Wojciech Macyk
@en
Wojciech Macyk
@es
Wojciech Macyk
@nl
prefLabel
Wojciech Macyk
@ast
Wojciech Macyk
@en
Wojciech Macyk
@es
Wojciech Macyk
@nl
P1153
6602935253
P21
P31
P496
0000-0002-1317-6115