83500-87-2Relevant articles and documents
The synthesis, characterization and comparative anticorrosion study of some organotin(IV) 4-chlorobenzoates
Kurniasih, Hastin,Nurissalam, Muhamad,Iswantoro, Bambang,Afriyani, Hapin,Qudus, Hardoko Insan,Hadi, Sutopo
, p. 2377 - 2383 (2016/02/27)
The synthesis of 3 compounds of a series of dibutyl(IV) di-4-chlorobenzoate, diphenyl(IV) di-4-chlorobenzoate and triphenyltin(IV) 4-chlorobenzoate have successfully been performed by reacting the dibutyltin(IV) dichloride, diphenyltin(IV) dichloride and triphenyltin(IV) chloride respectively via the dibutyltin(IV) oxide, diphenyltin(IV) dihydroxide and triphenyltin(IV) hydroxide with 4-chlorobenzoic acid. All compounds synthesized were well characterized by 1H and 13C NMR, IR and UV-Vis spectroscopies as well as based on the microanalytical data. The anticorrosion activity of these compounds were tested on Hot Roller Plate (HRP) mild steel in DMSO-HCl solution using potentiodynamic method. The results revealed that the triphenyltin(IV) 4-chlorobenzoate clearly showed the strongest inhibitor activity compared to the other derivatives, while diphenyltin(IV) compounds were better than that of dibutyltin(IV) analogous. The results reported here indicated that the optimal activity were depended on the ligand attached to the metal centre and might also be related to the number of carbon atoms present in the organotin(IV) used.
Organotin Biocides. Part 11. Triphenyltin Benzoates: Electronic versus Steric Control of Structure
Molloy, Kieran C.,Blunden, Stephen J.,Hill, Robin
, p. 1259 - 1266 (2007/10/02)
Twenty four triphenyltin derivatives of substituted benzoic acids have been synthesised.On the basis of i.r., (119)Sn n.m.r. and Moessbauer spectroscopic data, structures have been assigned to these compounds as either tetrahedral monomers or trans-SnR3O2
