Arumugam Kuppuswamy, Bollinger James E, Fink Mark, Donahue James P
Department of Chemistry, Tulane University, 6400 Freret Street, New Orleans, Louisiana 70118-5698, USA.
Inorg Chem. 2007 Apr 16;46(8):3283-8. doi: 10.1021/ic0700203. Epub 2007 Mar 15.
The reaction of P4S10 with acyloins, RC(O)CH(OH)R, in refluxing dioxane, followed by the addition of alkylating agents, forms dithiolene thiophosphoryl thiolate compounds, (R2C2S2)P(S)(SR'), which are readily isolated and purified. The compounds that have been prepared and identified spectroscopically are those with R = p-anisyl, R' = Me (1); R = p-anisyl, R' = Bz (2); R = Ph, R' = Me (4); R = Et, R' = Bz (5). Compounds 1, 2, and 4 were structurally characterized by X-ray crystallography and found to possess a tetrahedral coordination geometry about the phosphorus atom, with overall Cs symmetry. In each case, the mirror plane bisects the dithiolene S-P-S chelate and contains the thiophosphoryl bond, which ranges in length from 1.9241(8) to 1.9361(7) A. The use of 2-(bromomethyl)naphthalene as organic electrophile in the P4S10/acyloin reaction produced bis(2-methylnaphthalenyl) disulfide as the only identifiable product. The substitution of Lawesson's reagent for P4S10 in reactions with acyloins produced deoxy acyloin rather than products resulting from chalcogen exchange. Compounds 1-2 and 4-5 are Group 5 analogues of 1,3-dithiol-2-ones, (R2C2S2)C=O, and undergo a similar hydrolysis in aqueous base to liberate ene-1,2-dithiolate dianions from which corresponding metal dithiolene complexes may be prepared. Deprotection of 1 in MeO-/MeOH, followed by the addition of NiCl2.6H2O and then I2, produces square planar [Ni(S2C2(C6H4-p-OCH3)2)2] (8) in 93% yield. A high-resolution structure of 8 (P) reveals dithiolene C-C and C-S bond lengths that are clearly indicative of the thionyl radical monoanionic nature of the ligand. The use of isolated (R2C2S2)P(S)(SR') compounds as a dithiolene ligand source for the preparation of metal dithiolene complexes offers the advantages of clean reactivity and high yield.
在回流的二氧六环中,P4S10与偶姻(RC(O)CH(OH)R)反应,随后加入烷基化剂,形成二硫纶硫代磷酰硫醇盐化合物((R2C2S2)P(S)(SR')),这些化合物易于分离和纯化。已通过光谱法制备并鉴定的化合物有R = 对甲氧基苯基、R' = 甲基(1);R = 对甲氧基苯基、R' = 苄基(2);R = 苯基、R' = 甲基(4);R = 乙基、R' = 苄基(5)。化合物1、2和4通过X射线晶体学进行了结构表征,发现磷原子周围具有四面体配位几何结构,整体具有Cs对称性。在每种情况下,镜面平分二硫纶S-P-S螯合物并包含硫代磷酰键,其长度范围为1.9241(8)至1.9361(7)埃。在P4S10/偶姻反应中使用2-(溴甲基)萘作为有机亲电试剂,得到双(2-甲基萘基)二硫化物作为唯一可鉴定的产物。在与偶姻的反应中用劳森试剂替代P4S10,得到的是脱氧偶姻而非硫属元素交换产物。化合物1 - 2和4 - 5是1,3 - 二硫醇 - 2 - 酮((R2C2S2)C=O)的第5族类似物,在碱性水溶液中会发生类似的水解反应,释放出烯 - 1,2 - 二硫醇盐二价阴离子,由此可制备相应的金属二硫纶配合物。在甲氧基离子/甲醇中对1进行脱保护,随后加入NiCl₂·6H₂O,再加入碘,以93%的产率生成平面正方形的[Ni(S₂C₂(C₆H₄ - p - OCH₃)₂)₂](8)。8(P)的高分辨率结构显示二硫纶C - C和C - S键长清楚地表明了配体的亚硫酰基自由基单阴离子性质。使用分离的(R₂C₂S₂)P(S)(SR')化合物作为制备金属二硫纶配合物的二硫纶配体来源具有反应清洁和产率高的优点。
