J
Jan Reedijk
Researcher at Leiden University
Publications - 1165
Citations - 45902
Jan Reedijk is an academic researcher from Leiden University. The author has contributed to research in topics: Ligand & Crystal structure. The author has an hindex of 80, co-authored 1163 publications receiving 43747 citations. Previous affiliations of Jan Reedijk include Nagoya City University & University of Münster.
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Coordination of 9-methylhypoxanthine to [cis-Pt(NH3)2]2+ and [Pt(dien)]2+ as studied by proton NMR
TL;DR: Etude du deplacement chimique en RMN du proton pour chaque compose en fonction du pH as mentioned in this paper, and description de la coordination des complexes formes.
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Homogeneous Zinc(II) Catalysis in Accelerated Vulcanization I. Reaction-Stage Modeling and Cross-Link Formation
TL;DR: In this article, reaction-stage modeling was used to study the mechanism of accelerated vulcanization, namely Reaction-Stage Modeling (RSM) by carefully studying the reactivity of relevant model compounds under selected conditions.
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Crystal structure, magnetism and spectroscopy of two strongly antiferromagnetically coupled dinuclear Cu(II) paddlewheel-like compounds with 4-azabenzimidazole as a ligand
TL;DR: In this article, two dinuclear compounds, [Cu2(azab)4Cl2]Cl2(CH3OH)3 (1) and [cu2[azab]4Br2]Br2(H2O)1/2 (2) (in which azab = 4-azabenzimidazole), have been synthesized and characterized by infrared spectroscopy and EPR.
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Synthesis and X-ray crystal structures of a dinuclear and a trinuclear nickel complex with mixed N,O,S ligand environments
Vincent E. Kaasjager,Joep van den Broeke,Richard K. Henderson,Wilbert J.J. Smeets,Anthony L. Spek,Willem L. Driessen,Elisabeth Bouwman,Jan Reedijk +7 more
TL;DR: In this paper, a tridentate chelating N,O,S ligand is formed, which in the complexes is dianionic with one thiolate and one alkoxide donor atom.
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Hydrogen bond assisted co-crystallization of a bimetallic MnIII2NiII2cluster and a NiII2cluster unit: synthesis, structure, spectroscopy and magnetism
TL;DR: The magnetic properties of the compound have been studied in combination with preliminary DFT calculations, and have resulted in the successful determination of the nature of the magnetic exchange interactions between the metal ions, and hence the coupling constants.