about
Photophysical properties of tyrosine and its simple derivatives in organic solvents studied by time-resolved fluorescence spectroscopy and global analysis.Redox process is crucial for inhibitory properties of aurintricarboxylic acid against activity of YopH: virulence factor of Yersinia pestisAurintricarboxylic acid structure modifications lead to reduction of inhibitory properties against virulence factor YopH and higher cytotoxicityStructure, physicochemical and biological properties of new complex salt of aqua-(nitrilotriacetato-N,O,O',O")-oxidovanadium(IV) anion with 1,10-phenanthrolinium cation.Physicochemical properties of ternary oxovanadium(IV) complexes with oxydiacetate and 1,10-phenanthroline or 2,2'-bipyridine. Cytoprotective activity in hippocampal neuronal HT22 cells.Single-crystal X-ray diffraction analysis of designer drugs: hydrochlorides of metaphedrone and pentedrone.Cytostatic and antiviral activity evaluations of hydroxamic derivatives of some non-steroidal anti-inflammatory drugs.Thiol-functionalized anthraquinones: mass spectrometry and electrochemical studies.1-(Piperidin-1-yl)-9,10-anthraquinone.1,8-Bis(tos-yloxy)-9,10-anthraquinone.n-Butyl 2-(3-chloro-1,2-dihydro-pyrazin-2-yl-idene)-2-cyano-acetate.Pyrazino[2,3-b]indolizine-10-carbonitrile.2-(3-Chloro-1,2-dihydro-pyrazin-2-yl-idene)malononitrileMethyl 7-meth-oxy-9-oxo-9H-xanthene-2-carboxyl-ate.1-Dimethyl-amino-9,10-anthraquinone.The influence of protonation on molecular structure and physico-chemical properties of gossypol Schiff bases.Ab initio study of the mechanism of singlet-dioxygen addition to hydroxyaromatic compounds: negative evidence for the involvement of peroxa and endoperoxide intermediates.Electrochemical study of oxygen interaction with lapachol and its radical anions.A rapid-response ultrasensitive biosensor for influenza virus detection using antibody modified boron-doped diamond.First insight into microbial community composition in a phosphogypsum waste heap soil.Influence of different amino substituents in position 1 and 4 on spectroscopic and acid base properties of 9,10-anthraquinone moiety.Polyether precursors of molecular recognition systems based on the 9,10-anthraquinone moiety.Optical Detection of Ketoprofen by Its Electropolymerization on an Indium Tin Oxide-Coated Optical Fiber Probe.Complexes between some lysine-containing peptides and crown ethers--electrospray ionization mass spectrometric study.Potentiometric and AM1d studies of silicon and boron podands—silver (I) complexesSynthesis and electrochemical, spectral, and biological evaluation of novel 9,10-anthraquinone derivatives containing piperidine unit as potent antiproliferative agentsElectrochemical degradation of textile dyes in a flow reactor: effect of operating conditions and dyes chemical structureOptical Monitoring of Electrochemical Processes With ITO-Based Lossy-Mode Resonance Optical Fiber Sensor Applied as an ElectrodeThe Impact of Grain Size Composition and Organic Matter Content on Magnetic Susceptibility of Anthropogenically Transformed Bottom Sediments, as Exemplified by the Former Naval Harbour in HelChemical-Assisted Mechanical Lapping of Thin Boron-Doped Diamond Films: A Fast Route Toward High Electrochemical Performance for Sensing DevicesFluorinated Boronic Acids: Acidity and Hydrolytic Stability of Fluorinated Phenylboronic AcidsAnnealing of indium tin oxide (ITO) coated optical fibers for optical and electrochemical sensing purposesIn pursuit of the ideal chromoionophores (part I): pH-spectrophotometric characteristics of aza-12-crown-4 ethers substituted with an anthraquinone moietyMelamine-modified Boron-doped Diamond towards Enhanced Detection of Adenine, Guanine and CaffeineSynthesis and properties of new N,N′-phenyltetrazole podandFluorescence properties of riboflavin-functionalized mesoporous silica SBA-15 and riboflavin solutions in presence of different metal and organic cationsPoly-l-lysine-modified boron-doped diamond electrodes for the amperometric detection of nucleic acid basesPotentiometric, spectrophotometric and AM1d studies of the equilibria between silver(I) ion and diaza-crown ethers with anthraquinone moiety in various solventsDirect amination of boron-doped diamond by plasma polymerized allylamine filmNovel Functionalization of Boron-Doped Diamond by Microwave Pulsed-Plasma Polymerized Allylamine Film
P50
Q30982055-1B69B752-17D8-43F8-9588-90181E874C8BQ36210869-562836BF-64A1-46FA-A8F7-6B7B031E89AEQ37208181-21CCEEAD-DE59-4A91-9F02-19CA1B56B4B8Q38837026-656C137D-13B9-42C2-9799-2BDF81D081F6Q38912513-F17507E6-29D6-4007-9D04-87B00FBA631EQ39368255-F06063E4-9858-4DD0-88EB-2FE7F5EAF832Q39885296-7046F4C5-54FE-4AFE-9BE8-10CB1ED6AD2BQ41266062-E132ED9D-0E6C-4736-87BE-B2905AFAC208Q41828261-AF90A3B6-64E3-4CE3-BD85-81D88E728A31Q41872343-4D9398DB-01F4-4D41-AB06-CFD8EC5ADE7DQ41990423-36264A1F-5B13-4142-AED5-51CE3C258E93Q42099152-3B2B691F-4AA8-4144-9F77-9CF1378DB1E1Q42389649-BD964F4D-E7A5-4AD2-A8BA-3760C5418AE7Q42390028-03D3CC18-6EC2-4573-BFA0-B11B24FDEBA5Q42667515-7C75105E-1BF4-40A7-A42D-5743386FA088Q42853835-AF91EE5E-03E2-4FB1-B2D7-0686F680C77DQ44063214-900BEDCD-4AA8-4588-8D07-0F2A64D5CC25Q44406516-D6337061-9535-419A-B915-0430F8644F63Q45324723-0B05CC78-8367-4A94-AC1F-9B921E91DF17Q49787384-D0118ABC-8EFC-4945-8ECD-58D24A66873CQ50796781-40C0D148-FFB8-4A90-BA95-133D7069A3DAQ50848525-AA35AD8E-9FF5-4897-A27F-6CD8489BF8FCQ52558387-18F07071-DEEB-413E-BE9F-699F2F7440B4Q54095008-9198CB76-920B-4DDD-A07B-4DD4D5EDE117Q57587371-5AEAC972-F660-4770-AB1F-D10C8D98D629Q57727676-52CEE79F-401A-43AA-BD28-2E8782D4FAE1Q57727681-A81C2896-1FA1-4B44-8B01-163663973537Q57727686-5ED091C3-65ED-418E-B943-C9FBFFDB6BCAQ57727693-70AEC1A0-8A0E-4B21-9646-975183953A61Q57727702-03DCD0CB-1996-46D1-BF08-7124EC321F74Q57727715-822851E3-4476-4CC3-9E6D-821346650AD4Q57727720-0DBD8E8F-80C1-499D-97E8-9D1614BFF139Q57727727-EB7CB9D6-4F40-4AF5-A08B-A9E9C8CA41E8Q57727733-F75F72C0-96DB-4FEC-AD69-50912161FF86Q57727737-39BA6DF4-3344-4063-9F52-C04A5A85CAA9Q57727744-2B7078D3-95B1-4C53-ACCE-E1593AB08CC3Q57727754-F755572F-24CD-4A9A-AD9B-1E2DF1E9C34DQ57727763-70DB4C7C-F5F4-4716-9B1D-4D06CEC6B1A8Q57727770-09DD97B0-7076-4875-8CC4-C4B90C79282DQ57727776-E4CBCCF7-01EC-4D0E-B061-2EAAA34E2262
P50
description
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Tadeusz Ossowski
@ast
Tadeusz Ossowski
@en
Tadeusz Ossowski
@es
Tadeusz Ossowski
@nl
Tadeusz Ossowski
@pl
type
label
Tadeusz Ossowski
@ast
Tadeusz Ossowski
@en
Tadeusz Ossowski
@es
Tadeusz Ossowski
@nl
Tadeusz Ossowski
@pl
altLabel
Tadeusz Piotr Ossowski
@pl
prefLabel
Tadeusz Ossowski
@ast
Tadeusz Ossowski
@en
Tadeusz Ossowski
@es
Tadeusz Ossowski
@nl
Tadeusz Ossowski
@pl
P214
P106
P1153
55907187700
P21
P214
P31
P3124
P496
0000-0002-0468-0133
P734
P7859
viaf-317148446