Mir Wais Hosseini
University of Strasbourg
360 Papers
5.7K Citations
Mir Wais Hosseini is an academic researcher from University of Strasbourg. The author has contributed to research in topics: Chemistry & Ligand. The author has an hindex of 53, co-authored 357 publications. Previous affiliations of Mir Wais Hosseini include Texas A&M University & Centre national de la recherche scientifique.
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Papers
Crystal engineering: molecular networks based on inclusion phenomena
Mir Wais Hosseini,André De Cian +1 more
TL;DR: In this article, hollow tuneable molecular modules based on fusion of preorganised cavities were shown to be assembled in the solid state into one-dimensional molecular arrays (koilates) either by self-inclusion or by interconnection using connector molecules.
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Supramolecular catalysis of phosphoryl transfer: cocatalysis of pyrophosphate synthesis from acetyl phosphate mediated by macrocyclic polyamines
TL;DR: L'hexaaza-24-crown-8 catalyse l'hydrolyse du phosphate d'acetyle en orthophosphate and la synthese de diphosphate.
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Comparative study of the copper(II) cryptates of C-BISTREN and O-BISTREN. Protonation constants, formation constants, and secondary anion bridging by fluoride and hydroxide
TL;DR: In this paper, the macrobicyclic ligand (Ia) as a function of pH in the presence and absence of fluoride ions was determined and equilibrium measurements were carried out to determine the protonation constants and Cu(II) stability constants.
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Alkoxo-bridged copper(II) complexes as nodes in designing solid-state architectures. The interplay of coordinative and d10–d10 metal–metal interactions in sustaining supramolecular solid-state architectures
Carmen Paraschiv,Carmen Paraschiv,Marius Andruh,Sylvie Ferlay,Mir Wais Hosseini,Nathalie Kyritsakas,Jean-Marc Planeix,Nicolae Stanica +7 more
TL;DR: Four novel polymeric coordination networks have been obtained through self-assembly processes involving alkoxo-bridged copperII species as nodes, and anionic cyano-complexes as linkers, resulting in infinite chains of gold atoms.
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Self-assembly of pyrazolyl based ligands and silver cation into metallamacrocycles and tubular coordination networks
TL;DR: In this article, the 2,6-bis(pyrazolyl)pyrazine ligand forms a 2,2-metallamacrocycle composed of two ligands and two cations, in the presence of the Ag+ cation.
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