about
Human TTR conformation altered by rhenium tris-carbonyl derivativesImidazole and imidazolate iron complexes: on the way for tuning 3D-structural characteristics and reactivity. Redox interconversions controlled by protonation state.Synthesis, characterization and dioxygen reactivity of copper(I) complexes with glycoligands.Metal-carbonyl units for vibrational and luminescence imaging: towards multimodality.New insight into the structural, electrochemical and biological aspects of macroacyclic Cu(II) complexes derived from S-substituted dithiocarbazate schiff bases.Synthesis, characterization and biological activity of Cu(II), Zn(II) and Re(I) complexes derived from S-benzyldithiocarbazate and 3-acetylcoumarin.Bimodal X-ray and Infrared Imaging of an Organometallic Derivative of Praziquantel in Schistosoma mansoni.Luminescence modulations of rhenium tricarbonyl complexes induced by structural variations.Apo-neocarzinostatin: a protein carrier for Cu(II) glycocomplexes and Cu(II) into U937 and HT29 cell lines.Fourier transform infrared (FT-IR) spectromicroscopy to identify cell organelles: correlation with fluorescence staining in MCF-7 breast cancer cells.Toward optimal spatial and spectral quality in widefield infrared spectromicroscopy of IR labelled single cells.Evaluation of the anti-oxidant properties of a SOD-mimic Mn-complex in activated macrophages.Synchrotron radiation FTIR detection of a metal-carbonyl tamoxifen analog. Correlation with luminescence microscopy to study its subcellular distribution.Sugars to control ligand shape in metal complexes: conformationally constrained glycoligands with a predetermination of stereochemistry and a structural control.Structural and magnetic properties of carboxylato-bridged manganese(II) complexes involving tetradentate ligands: discrete complex and 1D polymers. Dependence of J on the nature of the carboxylato bridge.RIDME spectroscopy on high-spin Mn(2+) centers.Superoxide dismutase-like activity of cobalt(II) complexes based on a sugar platform.Entasis through hook-and-loop fastening in a glycoligand with cumulative weak forces stabilizing Cu(I).Proton-coupled electron transfers in biomimetic water bound metal complexes. The electrochemical approach.Rhenium Complexes Based on 2-Pyridyl-1,2,3-triazole Ligands: A New Class of CO2 Reduction Catalysts.A Cell-Penetrant Manganese Superoxide Dismutase (MnSOD) Mimic Is Able To Complement MnSOD and Exerts an Antiinflammatory Effect on Cellular and Animal Models of Inflammatory Bowel Diseases.Labeling of hyaluronic acids with a Re-tricarbonyl tag and percutaneous penetration studied by multimodal imaging.A metallo pro-drug to target Cu(II) in the context of Alzheimer's disease.The Use of Mn(II) Bound to His-tags as Genetically Encodable Spin-Label for Nanometric Distance Determination in Proteins.Photophysical properties of single core multimodal probe for imaging (SCoMPI) in a membrane model and in cells.Graftable SCoMPIs enable the labeling and X-ray fluorescence imaging of proteins.Clarifying the Copper Coordination Environment in a de Novo Designed Red Copper ProteinCharacterization of purified green bell pepper hydroperoxide lyase expressed by Yarrowia lipolytica: Radicals detection during catalysisMetal Complexation of a D-Ribose-Based Ligand Decoded by Experimental and Theoretical StudiesAn intrinsically fluorescent glycoligand for direct imaging of ligand trafficking in artificial and living cell systemsRecent Analytical Applications of Molecular Spectroscopy in Bioorganometallic Chemistry—Part I: Metal CarbonylsRecent Applications of Molecular Spectroscopy in Bioorganometallic Chemistry–Part 2: Ferrocenes and Other Organometallic ComplexesFirst Synthesis of a Binuclear [Mn(II)(bipy)-Fe(III)(porphyrin)] Complex: Spectroscopic Characterization and First Evidence of Reversible Formation of Manganese(III) as Manganese PeroxidaseGlycoligands tuning the magnetic anisotropy of Ni(II) complexesGlycoligands and Co(II) glycocomplexes. Investigation of the variation of the sugar-scaffold on the structure and chirality measured by circular dichroismDiaqua[methyl 4-O-benzyl-2,3,6-tri-O-(2-picolyl)-alpha-D-mannopyranoside]cobalt(II) bis(perchlorate) monohydrate: partial coordination of a ligand derived from D-mannoseStereocontrol by a pair of epimeric sugar-derived ligands of the coordination sphere of copper(II) complexesSynthesis and X-ray structure of the MnIICl2 and MnIIIF2 complexes of N,N'-dimethyl-2,11-diaza[3,3](2,6)pyridinophane. High-field electron paramagnetic resonance and density functional theory studies of the MnIII complex. Evidence for a low-lying spSpectroscopic investigation of isonitrile complexes of ferric and ferrous microperoxidase 8Intrinsically fluorescent glycoligands to study metal selectivity
P50
Q27718527-006B3C45-9183-432A-8220-FA842CD86085Q30941290-BC221374-F66E-41E7-8C10-D2D36E3371F6Q31170139-D394D81F-BA35-467B-ABBD-2A3E89160026Q38265793-F9BFAA02-0851-4142-BC75-1B9169D621EFQ38770656-769CF420-75A1-4E9C-8762-D1A1E57DAB65Q38906475-1A35C3DA-1695-410D-A158-F1E47ABE61CDQ38949172-EB1B865D-7E62-4F86-A982-F1412EBBAA22Q38987517-4A3428A1-1334-4D3C-86A7-EF3AC2E20D81Q39012946-85DC9A04-7998-4F2C-ACD9-66D5D6FA34AAQ39036018-36487CD5-5EAC-44EB-9C10-50D94EAA1522Q39130529-754A0B41-34DA-41BD-97F6-C072DC6EF2A1Q39381731-6A6594F8-E1D4-4E0F-A217-0A11616E8710Q39397946-DDCDE2D1-0A1F-48F4-933E-BA9D20560846Q42944345-C053E463-7496-4326-8168-71D58D930FEEQ44665213-7084A3A5-9319-4966-A08E-229D5ABAD335Q46466606-45991149-E8DE-421D-B852-69C938EF5255Q46784298-75842C3A-D82A-448C-B13B-D5551B7397DEQ46790090-DA100976-B61C-4D8A-B5CB-51432A708CCFQ48153493-EADBE4BE-F3CE-42B3-99F7-594AF9C41CFEQ48213297-4B1D70FC-DEF8-4480-9388-6F8C7086DAD6Q48235105-EC729B37-7CAA-4C7A-8563-DF9E613B3E10Q49842859-FC4F5F48-0986-4B97-9932-B4F5EE94AA29Q50045897-91DE8C2B-7776-449B-9B28-86E91F284009Q51471751-8F701284-DD4E-43C3-AD67-3F02A7D7B1A7Q51739605-FE793E76-83D4-4C21-95B6-98042BB555A0Q55179285-42E9C737-5F3A-4B3D-9854-2E04A1EB1F60Q57751758-04AD080F-22F8-4246-A43E-DB5AA8E7FE4CQ58381934-DC2E959F-914A-4D68-AA48-6AC49A5409B3Q58571747-91AA4E2E-D8D3-4074-B9FA-C475E5ABCB84Q58853202-60A2DBE1-3F94-4D87-A581-437615F32A29Q60453037-762F2524-707F-49F3-8848-22CEA5EF5287Q60453038-6B46BF16-2AC6-4B4A-952A-73B2D1FBA0A8Q74820167-3EDC48D7-441D-4513-BE28-F96670C38CC5Q79762389-057439CC-8635-4661-B744-A04CD1E01182Q80088871-08DE7710-4EFD-4989-B603-2DE47E5CB4B4Q80264745-50CC80D4-1910-43FF-BF57-582E1A649281Q80822490-8913F079-9CEF-478E-8D2B-D52D8C8CC6BFQ81253596-289F3467-A0E3-4D00-A1AB-DA64F4823628Q81655402-271D2392-BE6D-46F2-AE58-3742E010ECCEQ82055446-DD393867-A72D-4DDA-A3FA-35DE762D9C19
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0003-0255-1650
@en
name
Clotilde Policar
@ast
Clotilde Policar
@en
Clotilde Policar
@es
Clotilde Policar
@nl
type
label
Clotilde Policar
@ast
Clotilde Policar
@en
Clotilde Policar
@es
Clotilde Policar
@nl
prefLabel
Clotilde Policar
@ast
Clotilde Policar
@en
Clotilde Policar
@es
Clotilde Policar
@nl
P106
P31
P496
0000-0003-0255-1650