Highly Substituted Tris(pyrazolyl)methane Ligands and Some Zinc Complexes Thereof

## Abstract In order to improve the encapsulation of metal ions coordinated by tris(thioimidazolyl)borate ligands, four new such ligands with __o__‐substituted phenyl substituents were synthesised as well as ones with __p__‐tolyl and cyclohexyl substituents. In order to provide a basis for their bi

## Abstract The substituted ligands Me~3~SiC(pz)~3~ (1) and Me~3~SiOCH~2~C(pz)~3~ (2) have been prepared starting from HC(pz)~3~ and HOCH~2~C(pz)~3~. The molecular structure of compound 1 has been determined by X‐ray diffraction studies, which show a propeller‐like conformation of the pyrazolyl rin

Attachment of 2-pyridylmethyl units to cysteine amide and zinc perchlorate MBPA forms the ionic compound [L • Zn] ClO 4 , presumed to be a thiolate bridged dimer. Structure 2-mercaptobenzylamine leads to the new tripodal N 3 S ligands N α -(4-methylbenzoyl)-L-cysteine-bis(2-pyridylmeth-determination

A series of three new quadridentate ligands was synthesized by reaction of the haloacetylated amino acid esters L- BrAc-Phe-OMe (4a), L-BrAc-Lys(Z)-OMe (4b), and ClAc-Gly-OEt (4c), respectively, with bis(picolyl)amine (bpa, 5). The obtained products L-bpaAc-Phe-OMe (3a), L-bpaAc-Lys(Z)-OMe (3b), and

## Abstract A new and safer methodology has been developed for the synthesis of bis(pyrazol‐1‐yl)methane ligands (NN). Several ligands containing different phenyl groups on the central carbon atom have been obtained. Ruthenium derivatives of the type [Ru(arene)Cl(NN)]BPh~4~ (arene = benzene, __p__‐