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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Magnetothermal Studies of a Series of Coordination Clusters Built from Ferromagnetically Coupled {MnII4MnIII6} Supertetrahedral Units
TL;DR: High-nuclearity mixed valence manganese(II/III) coordination clusters, have been synthesised and magnetothermal studies reveal that all three compounds show interesting long-range magnetic ordering at low temperature, originating from negligible magnetic anisotropy of the compounds; compound 2 shows the largest magnetocaloric effect among the three compounds.
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Medicinal applications of heavy-metal compound
TL;DR: A brief summary of the key role for certain heavy-metal compounds in medicine is discussed, with a special focus on very recent findings in the following four topics: platinum anti-tumor compounds, platinum mononuclear compounds, dinuclear compounds and trinuclear compounds with promising activity.
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A highly flexible dinuclear ruthenium(II)-platinum(II) complex: crystal structure and binding to 9-ethylguanine.
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Reversibility of binding of cisplatin-methionine in proteins by diethyldithiocarbamate or thiourea: a study with model adducts
Edwin L. M. Lempers,Jan Reedijk +1 more
TL;DR: In this article, the Pt-cysteine type bonds in [PtCl(dien)GS] + and in trans-Pt(NH 3 ) 2 (GS) 2 could not be reversed by sodium diethyldithiocarbamate (Na(ddtc)) and thiourea.
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Activation of the C-H bond by electrophilic attack: theoretical study of the reaction mechanism of the aerobic oxidation of alcohols to aldehydes by the Cu(bipy)(2+)/2,2,6,6-tetramethylpiperidinyl-1-oxy cocatalyst system.
Carine Michel,Paola Belanzoni,Patrick Gamez,Jan Reedijk,Evert Jan Baerends,Evert Jan Baerends +5 more
TL;DR: Electrophilic attack, being common to the particular catalytic system studied in this paper and the well-known biotic and abiotic oxidation catalysis by heme and non-heme complexes of the ferryl (Fe(IV)O(2+)) ion, appears to be a unifying electronic structure principle of C-H(alpha) hydroxylation and oxidation reactions.