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INTERACTIONS BETWEEN (Me[sub]4[/sub]N)[sub]2[/sub](C[sub]2[/sub]O[sub]4[/sub])[sub]2[/sub]SnPh2•H[sub]2[/sub]O AND SnC[sub]l2[/sub]•2H[sub]2[/sub]O: (Me[sub]4[/sub]N)[sub]2[/sub](C[sub]2[/sub]O[sub]4[/sub])[sub]2[/sub]SnPh[sub]2[/sub]•2SnCl[sub]4[/sub] OR (Me[sub]4[/sub]N)[sub]2[/sub](C[sub]2[/sub]O[sub]4[/sub])[sub]2[/sub]SnCl[sub]2[/sub]•2SnPhCl[sub]3[/sub] ? THE MÖSSBAUER EFFECT SOLUTION

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Author(s): Hayat Qamar Kane | Libasse Diop

Journal: Scientific Study & Research. Chemistry & Chemical Engineering, Biotechnology, Food Industry
ISSN 1582-540X

Volume: 11;
Issue: 3;
Start page: 389;
Date: 2010;
Original page

Keywords: bichelating oxalate anion | IR and Mössbauer | appearance of SnPhCl3 in situ

ABSTRACT
The study of the interactions between (Me[sub]4[/sub]N)[sub]2[/sub](C[sub]2[/sub]O[sub]4[/sub])SnPh[sub]2[/sub]•H[sub]2[/sub]O and SnCl[sub]2[/sub]•2H[sub]2[/sub]O in EtOH has yielded a trinuclear adduct which Mössbauer study has allowed to choose (Me[sub]4[/sub]N)[sub]2[/sub](C[sub]2[/sub]O[sub]4[/sub])[sub]2[/sub]SnCl[sub]2[/sub]•2SnPhCl[sub]3[/sub] rather than (Me[sub]4[/sub]N)[sub]2[/sub](C[sub]2[/sub]O[sub]4[/sub])[sub]2[/sub]SnPh[sub]2[/sub]•2SnCl[sub]4[/sub] for formula, the oxalate anion behaving as a bichelating ligand, the environment around the tin (IV) centre being octahedral.
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