Cis versus Trans: The Coordination Environment about the Tin(IV) Atom in Spirocyclic Amino Alcohol Derivatives

The syntheses of amino alcohols MeN(CH₂ CH₂ CMe₂ OH)₂ (1), MeN(CMe₂ CH₂ OH)(CH₂ CMe₂ OH) (2), MeN(CH₂ CH₂ CH₂ OH)(CH₂ CMe₂ OH) (3), MeN(CH₂ CH₂ CMe₂ OH)(CH₂ CMe₂ OH) (4), MeN(CH₂ CH₂ CMe₂ OH)(CH₂ CH₂ OH) (5), and MeN(CH₂ CH₂ OH) (CH₂ CH₂ CH₂ OH) (6) as well as spirocyclic tin(IV) alkoxides spiro-[nBuN(CH₂ CMe₂ O)₂ ]₂ Sn (7), spiro-[MeN(CH₂ CH₂ CMe₂ O)₂ ]₂ Sn (8), spiro-[para-FC₆ H₄ N (CH₂ CMe₂ O)₂ ]₂ Sn (9), spiro-[MeN(CMe₂ CH₂ O)(CH₂ CMe₂ O)]₂ Sn (10), spiro-[MeN(CH₂ CH₂ CH₂ O)(CH₂ CMe₂ O)]₂ Sn (11), spiro-[MeN(CH₂ CH₂ CMe₂ O)(CH₂ CMe₂ O)]₂ Sn (12), spiro-[MeN(CH₂ CH₂ CMe₂ O)(CH₂ CH₂ O)]₂ Sn (13) and spiro-[MeN(CH₂ CH₂ O)(CH₂ CH₂ CH₂ O)]₂ Sn (14) are reported. The compounds were characterized by ¹ H, ¹³ C (1-14) and ¹¹⁹ Sn (7-14) NMR and IR spectroscopy, EIMS and single-crystal XRD (2, 7-10 and 13, 14). Graph-set analyses were performed for compounds [(MeNH(CMe₂ CH₂ OH)(CH₂ CMe₂ OH)][HC(O)O] (2 a) and 2. The coordination environment about the tin(IV) centre of the spirocyclic compounds and their possible stereoisomers were analysed by DFT calculations (spiro-[MeN(CH₂ CMe₂ O)₂ ]₂ Sn, 8-10 and 13).