about
Structural, spectroscopic and magnetic properties of M[R2P(E)NP(E)R'2]2 complexes, M = Co, Mn, E = S, Se and R, R' = Ph or iPr. Covalency of M-S bonds from experimental data and theoretical calculations.Noncovalent interactions under extreme conditions: high-pressure and low-temperature diffraction studies of the isostructural metal-organic networks (4-chloropyridinium)2[CoX4] (X = Cl, Br).Oxovanadium(IV) cyclam and bicyclam complexes: potential CXCR4 receptor antagonists.Synthesis, structure, and properties of [Pt(II)(diimine)(dithiolate)] dyes with 3,3'-, 4,4'-, and 5,5'-disubstituted bipyridyl: applications in dye-sensitized solar cells.A comparison of potential molecular wires as components for molecular electronics.In-situ microfluidic controlled, low temperature hydrothermal growth of nanoflakes for dye-sensitized solar cells.Directly probing spin dynamics in a molecular magnet with femtosecond time-resolution.Tetrahedral and square planar Ni[(SPR(2))(2)N](2) complexes, R = Ph & (i)Pr revisited: experimental and theoretical analysis of interconversion pathways, structural preferences, and spin delocalization.Substituted [Cu(I)(POP)(bipyridyl)] and related complexes: synthesis, structure, properties and applications to dye-sensitised solar cells.A stable near IR switchable electrochromic polymer based on an indole-substituted nickel dithiolene.Potassium bis(4,5-dimercapto-1,3-dithiole-2-thionato)nickelate 1,4,7,10,13,16-hexaoxa-2,3:11,12-dibenzocyclooctadeca-2,11-diene propanone solvate.Investigating magnetostructural correlations in the pseudooctahedral trans-[Ni(II){(OPPh2)(EPPh2)N}2(sol)2] complexes (E = S, Se; sol = DMF, THF) by magnetometry, HFEPR, and ab initio quantum chemistry.Synthesis of a self-assembled copper(II) metallo-rectangle with a guanosine-substituted terpyridine.Preparation and photophysical studies of [Ln(hfac)3DPEPO], Ln = Eu, Tb, Yb, Nd, Gd; interpretation of total photoluminescence quantum yields.Synthesis and properties of [Pt(4-CO(2)CH(3)-py)(2)(mnt)]: comparison of pyridyl and bipyridyl-based dyes for solar cells.Design of Os(II) -based sensitizers for dye-sensitized solar cells: influence of heterocyclic ancillaries.Synthesis, structural characterization, and magnetic studies of polynuclear iron complexes with a new disubstituted pyridine ligand.Spectroscopic, electrochemical and computational study of Pt-diimine-dithiolene complexes: rationalising the properties of solar cell dyes.Why is Anatase a Better Photocatalyst than Rutile? The Importance of Free Hydroxyl Radicals.Pt(II) metal complexes tailored with a newly designed spiro-arranged tetradentate ligand; harnessing of charge-transfer phosphorescence and fabrication of sky blue and white OLEDs.Synthesis of nitrogen and sulfur macrocycles with cis exogenous oxygen and sulfur donor atoms.High-Performance Porphyrin-Based Dye-Sensitized Solar Cells with Iodine and Cobalt Redox Shuttles.Molecular and thin film properties of cobalt half-sandwich compounds for optoelectronic application.SILAR BiOI-Sensitized TiO2 Films for Visible-Light Photocatalytic Degradation of Rhodamine B and 4-Chlorophenol.Effect of alkyl chain length on the properties of triphenylamine-based hole transport materials and their performance in perovskite solar cells.Giant negative magnetoresistance in Ni(quinoline-8-selenoate)2.Oligothiophene interlayer effect on photocurrent generation for hybrid TiO(2)/P3HT solar cells.Neutral copper(I) dipyrrin complexes and their use as sensitizers in dye-sensitized solar cells.D-A-π-A Motif Quinoxaline-Based Sensitizers with High Molar Extinction Coefficient for Quasi-Solid-State Dye-Sensitized Solar Cells.Combined magnetic and single-crystal X-ray structural study of the linear chain antiferromagnet [(CH3)4N][MnCl3] under varying pressure.Molecular Engineering of Potent Sensitizers for Very Efficient Light Harvesting in Thin-Film Solid-State Dye-Sensitized Solar Cells.p-Type NiO Hybrid Visible Photodetector.Electrochemical deposition of highly-conducting metal dithiolene films.Polymeric hole-transport materials with side-chain redox-active groups for perovskite solar cells with good reproducibilityUnprecedented Strong Panchromic Absorption from Proton-Switchable Iridium(III) Azoimidazolate ComplexesThe imitation game—a computational chemical approach to recognizing lifeSynthesis, Structure, and Complexation of a Large 28-mer Macrocycle Containing Two Binding Sites for Either Anions or Metal IonsMetal bis-1,2-dithiolene complexes in conducting or magnetic crystalline assembliesUnique structural topologies involving metal–metal and metal–sulfur interactions: salts of [Ni(C3S5)2]x− with cis-anti-cis-dicyclohexyl-18-crown-6 complexed counter ionsLuminescent Polymer Films from Simple Processing of Coronene and Europium Precursors in Water
P50
Q31040049-4A2EC63E-5AE3-4F86-B1DC-04F55240B5FDQ33440084-FE97B10C-6FF4-44F2-9825-02F41CD9F747Q33639946-9297536B-73E0-4C2D-9EF1-AB94FE52DBFDQ34384510-9EC83634-CDE7-445D-8D90-BCBAED133195Q35102382-123C72A4-8983-4F09-8CF6-C4E486F9198AQ36343808-7EB56A04-B5DA-4784-B2DC-5ED395D1C27DQ42155587-2106B1E8-B020-4B2C-B117-36D4A45155B4Q42168276-3768E542-D3FE-469A-B3B9-64D3C54323D5Q42880255-8D2ACE5A-DBF7-4912-AC68-94ECFB24D92AQ43269973-02112FB4-EEEC-4E58-A6EA-678A0A7EE4B7Q43797911-759CC985-7238-490C-A5CE-588DDB786A8DQ44264858-19E4185D-98DA-4067-9767-1AC763FD5A6DQ45126232-B4E158E5-8578-425D-9266-7CA6AE5A5039Q45757624-574D7D33-2190-41A5-8F3B-F40275060853Q46218336-8381E156-A988-4559-84FA-13327DCF669AQ46252291-4DBDC362-2165-4249-A3EB-12249DE55FFDQ46451457-87D37343-99DF-440E-AD0E-0E48099D47C2Q46492307-B8BF4C1D-0788-4464-9359-DBC8C76DBF12Q46725659-229C7FB0-7F77-44FC-8950-E0471FC0088FQ46747599-916B597E-C117-4C54-86CF-C1343BD845F4Q46809647-D6F50CCC-E24B-4289-BB81-C3BC51E0E885Q48052579-9EDBE082-526D-4200-8601-FF8DE0C858F6Q48219496-D2A1FF64-9D03-4FCF-B79F-2C2843233239Q48272659-A04DE8F2-80F0-4D5E-8708-3EBE5EDEC3FAQ49694213-0F467467-7477-4204-AEFE-0F1D67682A6FQ50036474-FAF81A9D-9F81-49FC-ADFA-76E4C1A6902EQ50460098-B171D638-5657-4B62-AC57-E2625B4404DFQ50480416-3232151E-79BB-4CAF-866B-C8D16C29931EQ51116045-0B1B21C2-62E6-4CBA-ADB2-440F5B09BF94Q51165593-F6388DB4-18D6-4007-AEAC-C81464913597Q51217611-C1DBF2BD-60BA-45EF-AC51-132C664FA8B1Q51611520-4A0EB75C-CCC1-4CEE-B770-0599D60B8906Q53785851-2CCD3923-669D-464A-AAE5-669AE9F8FBDFQ57040616-AA0EFFC6-C16D-45A8-B21D-BD1769D2A209Q57086030-FD2F4609-FF5E-4F5D-86BA-BB8386BE350CQ57383455-2D4B9BD4-FFEC-4B45-BFEB-9B2E08646ACBQ57383514-8DE280B5-E362-4F74-84A9-A713858E1FD4Q57383530-1758F212-BB59-4C90-8771-27EF21E109B2Q57383538-593CE3E4-8E63-4BD6-B4CB-512E818330BFQ57525077-BD3F9759-CAED-478A-A658-BC9E4A0652DE
P50
description
Chemist
@en
onderzoeker
@nl
name
Neil Robertson
@ast
Neil Robertson
@en
Neil Robertson
@es
Neil Robertson
@nl
Neil Robertson
@sl
type
label
Neil Robertson
@ast
Neil Robertson
@en
Neil Robertson
@es
Neil Robertson
@nl
Neil Robertson
@sl
prefLabel
Neil Robertson
@ast
Neil Robertson
@en
Neil Robertson
@es
Neil Robertson
@nl
Neil Robertson
@sl
P1053
E-6604-2011
P21
P31
P3829
P496
0000-0002-9230-6124