2015
DOI: 10.1039/c5dt01022e
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Synthesis of chelating diamido Sn(iv) compounds from oxidation of Sn(ii) and directly from Sn(iv) precursors

Abstract: Three dimethyltindiamides containing chelating diamide ligands were synthesised from the reaction of the dilithiated diamine and Me2SnCl2; [SnMe2(L1)] 1 (L1 = κ(2)-N(Dipp)C2H4N(Dipp)), [SnMe2(L2)] 2 (L2 = κ(2)-N(Dipp)C3H6N(Dipp)) and [SnMe2(L3)] 3 (L3 = κ(2)-N(Dipp)SiPh2N(Dipp)), Dipp = 2,6-(i)Pr2C6H3. Reaction of (L2)H2 with SnCl4 and NEt3 led to the formation of the diamidotin dichloride [SnCl2(L2)] 4 whereas reaction of (L1)H2 with SnCl4 and NEt3, or [Sn(L1)] with SnCl4, led to the exclusive formation of th… Show more

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Cited by 20 publications
(14 citation statements)
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“…The 119 Sn NMR resonances for 3 appears at δ = –262.5 which falls within the range of [CyNC(Me)NCy] 2 Sn (– 272.0 ppm) and [CyNC( t Bu)NCy] 2 Sn (–223.0 ppm)[11e] and for 4 it is at δ = –124.1 ppm which is in the close proximity of the previously reported heteroleptic Sn(II) amido guanidinates. [12f] The molecular structures of 3 and 4 are determined by single‐crystal X‐ray studies, which reveal the presence of four‐coordinated Sn atom (Figure and Figure ). The small angles of the aminopyridinato four‐membered rings ( 3 : 57.6(2) and 58.4(2)°; 4 : 58.24(7) and 57.96(7)°) led to the distortion of the four‐membered rings and the Sn atom can be best described as distorted square pyramid considering the lone pair on Sn in 3 and 4 .…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The 119 Sn NMR resonances for 3 appears at δ = –262.5 which falls within the range of [CyNC(Me)NCy] 2 Sn (– 272.0 ppm) and [CyNC( t Bu)NCy] 2 Sn (–223.0 ppm)[11e] and for 4 it is at δ = –124.1 ppm which is in the close proximity of the previously reported heteroleptic Sn(II) amido guanidinates. [12f] The molecular structures of 3 and 4 are determined by single‐crystal X‐ray studies, which reveal the presence of four‐coordinated Sn atom (Figure and Figure ). The small angles of the aminopyridinato four‐membered rings ( 3 : 57.6(2) and 58.4(2)°; 4 : 58.24(7) and 57.96(7)°) led to the distortion of the four‐membered rings and the Sn atom can be best described as distorted square pyramid considering the lone pair on Sn in 3 and 4 .…”
Section: Resultsmentioning
confidence: 99%
“…Synthesis of tin chalcogenides complexes via the reaction of stannylenes with elemental chalcogen has shown distinct bonding, which includes the formation of Sn=E (E = S, Se, Te) double bonds when the substituents on tin are bulky . However, the decrease in the bulkiness of the aryl substituents on tin results in the formation of bridging Sn‐E‐Sn moiety or four membered Sn 2 E 2 species …”
Section: Introductionmentioning
confidence: 99%
“…This arises due to the thermolabile nature of NHSn [24,25], leading to difficulties in acquiring NMR data ( Figures S8 and S9). The presence of additional peaks in the 119 Sn NMR ( Figure S10) of the reaction mixture may be attributed to the formation of Sn(IV) compounds [26,27]. Single crystals of compound 2 were obtained from hexane extract at −40 °C in a yield of 35% (Figures S11-S13 and S24, Table S2).…”
Section: Resultsmentioning
confidence: 99%
“…The Si-N bonds in bis(amino)silanes are rather strong, while it is desirable to attach bulky R groups to the silicon and nitrogen atoms to achieve increased kinetic stability of the metal complexes [4]. Recently, series of metal complexes featuring sterically encumbered bis(amido)silane ligands have been reported, such as [Me 2 -Si(NDipp) 2 SbCl] (Dipp = 2,6-i Pr 2 C 6 H 3 ) [5], [Me 2 Si(NDipp) 2 BiCl] [6] and [Ph 2 Si(NDipp) 2 SnMe 2 ] [7]. These compounds with a variety of backbones were prepared by the salt metathesis reaction of the appropriate dilithiated diamide with metal chloride.…”
Section: Introductionmentioning
confidence: 99%