| 20402-98-6

• CAS: 20402-98-6
• 化学式: ClO₃S*Cs
• 分子量: 248.423
• InChiKey: SAIFOCKTFRXZOP-UHFFFAOYSA-M

反应信息

• 作为反应物：
  描述：

  、 叠氮基三甲基硅烷 以 neat (no solvent) 为溶剂， 以99%的产率得到
  参考文献：
  名称：

  Synthesis and Characterization of the SO₂N₃^-, (SO₂)₂N₃^-, and SO₃N₃^- Anions

  摘要：

  SO(2) solutions of azide anions are bright yellow, and their Raman spectra indicate the presence of covalently bound azide. Removal of the solvent at -64 degreesC from CsN(3) or N(CH(3))(4)N(3) solutions produces yellow (SO(2))(2)N(3)- salts. Above -64 degreesC, these salts lose 1 mol of SO(2), resulting in white SO(2)N(3)(-) salts that are marginally stable at room temperature and thermally decompose to the corresponding azides and SO(2). These anions were characterized by vibrational and (14)N NMR spectroscopy and theoretical calculations. Slow loss of the solvent by diffusion through the walls of a sealed Teflon tube containing a sample of CsSO(2)N(3) in SO(2) resulted in white and yellowish single crystals that were identified by X-ray diffraction as CsSO(2)N(3).CsSO(3)N(3) with a = 9.542(2) Angstrom, b = 6.2189(14) A, c = 10.342(2) Angstrom, and beta = 114.958(4)degrees in the monoclinic space group P2(1)/m, Z = 2, and Cs(2)S(2)O(5).Cs(2)S(2)O(7).SO(2), respectively. Pure CsSO(3)N(3) was also prepared and characterized by vibrational spectroscopy. The S-N bond in SO(2)N(3)(-) is much weaker than that in SO(3)N(3)(-), resulting in decreased thermal stability, an increase in the S-N bond distance by 0.23 Angstrom, and an increased tendency to undergo rotational disorder. This marked difference is due to SO(3) being a much stronger Lewis acid (pF(-) value of 7.83) than SO(2) (pF(-) value of 3.99), thus forming a stronger S-N bond with the Lewis base N(3)(-). The geometry of the free gaseous SO(2)N(3)(-) anion was calculated at the RHF, MP2, B3LYP, and CCSD(T) levels. The results show that only the correlated methods correctly reproduce the experimentally observed orientation of the SO(2) group.

  DOI：

  10.1021/ic020183l