15768-03-3

Usage

Uses

Used in Industrial Water Treatment Systems:
Dimethyltin diisothiocyanate is used as a biocide and fungicide for controlling bacteria, fungi, and algae in industrial water treatment systems. Its application is crucial in maintaining the efficiency and cleanliness of cooling towers and industrial processing equipment.
Used in Textile Industry:
In the textile industry, dimethyltin diisothiocyanate is used as a preservative to protect materials from microbial growth and degradation, thereby extending their lifespan and maintaining their quality.
Used in Timber Industry:
Similarly, in the timber industry, dimethyltin diisothiocyanate is employed as a preservative to prevent the growth of fungi and bacteria that can cause decay and damage to wood products, ensuring their durability and structural integrity.
Despite its widespread use and effectiveness, there are environmental and health concerns associated with dimethyltin diisothiocyanate, leading to regulations and restrictions on its usage in some countries.

Upstream product

• 753-73-1 dimethyltin dichloride 
• 333-20-0 potassium thioacyanate 

Downstream Products

• 182280-10-0 diisothiocyanatodimethylbis(1-[(4-methylphenylimino)methyl]-2-phenol)tin(IV) 

Relevant academic research and scientific papers

Inner sphere complexes derived from the coordinate interactions of tin(IV) isothiocyanate moieties with 1-[(4-methylphenylimino)methyl]-2-phenol. Crystal structure of diisothiocyanatodimethylbis〈1-[(4-methylphenylimino)methyl]-2- phenol〉tin(IV), me2sn(ncs)2 · [hoc6h4ch:Nc6h4ch3] 2

A series of neutral complexes derived from the reactions of Sn(NCS)4, PhSn(NCS)3 and R2Sn(NCS)2 (R = Me and Ph) with [1-[(4-methylphenylimino)methyl]-2-phenol] have been synthesized. An X-ray crystal structural study of the diisothiocyanatodimethyltin(IV) derivative has been performed and all synthesized compounds were characterized by IR, 1H and 13C NMR spectroscopies. All the complexes exhibit octahedral geometry with tin-oxygen (Sn - O) coordination. Copyright

THE SYNTHESIS AND TIN-119m MOESSBAUER SPECTRA OF SOME DIORGANOTIN DIHALIDE AND DIPSEUDOHALIDE COMPLEXES WITH NITROGEN AND OXYGEN-DONOR LIGANDS

The synthesis and 119mSn Moessbauer spectra of 114 complexes of the type R2SnX2, L2 (R = Me, Et, n-Pr, n-Bu, n-Oct, Ph, Bz; X = F, Cl, Br, I, NCS; L2 = 2 monodentate or 1 bidentate O- or N-donor ligand(s)), 74 of which are new, are reported.The majority of the complexes are isostructural, having an octahedral trans-R2SnX4 geometry about tin, whilst five of the diphenyltin complexes (R = Ph; X = Cl; L2 = AMP, Nphen; X = NCS; L2 = bipy, phen, TMphen) adopt a cis-R2SnX4 octahedral structure.A convenient method for the synthesis of a number of novel 1:1 diorganotin difluoride complexes using hot acetonitrile is reported and a structure for the unusual adduct, Ph2SnF2 * 0.5 phen, is proposed.