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- Gas-phase pyrolysis of the S-butyl thioacetates. David B. Bigley, Rosemary E. Gabbott
, J. Chem. Soc., Perkin Trans. 2
, 1973
, 1293
- 1153. Silicon–nitrogen and silicon–sulphur compounds as intermediates in the preparation of certain organic compounds. E. W. Abel, D. A. Armitage
, J. Chem. Soc.
, 1964
, 5975
- Gas-phase pyrolytic reactions. Rate data for pyrolysis of N-t-butylthioacetamide and N-acetylthioacetamide: role of polarity of transition state and γ-carbonyl group protophilicity. Nouria A. Al-Awadi, Rasha F. Al-Bashir, Osman M. E. El-Dusouqui
, J. Chem. Soc., Perkin Trans. 2
, 1989
, 579
- Employing chemical synthesis to study the structure and function of colibactin, a “dark matter” metabolite. Peyton C. Williams, Kevin M. Wernke, Alina Tirla, Seth B. Herzon
, Nat. Prod. Rep.
, 2020
, 37
, 1532
- Toggling enantioselective catalysis—a promising paradigm in the development of more efficient and versatile enantioselective synthetic methodologies. Giuseppe Zanoni, Francesca Castronovo, Maurizio Franzini, Giovanni Vidari, Elios Giannini
, Chem. Soc. Rev.
, 2003
, 32
, 115
- The mechanism of thermal eliminations. Part 15. Abnormal rate spread in pyrolysis of alkyl methyl carbonates and S-alkyl O-methyl carbonates due to enhanced nucleophilicity of the carbonyl group. Roger Taylor
, J. Chem. Soc., Perkin Trans. 2
, 1983
, 291
- The triisopropylsilyl effect: exceptional Cram-type selectivity in Mukaiyama aldol reactions of a silyl ketene thioacetal. Anthony P. Davis, Stephen J. Plunkett, Jayne E. Muir
, Chem. Commun.
, 1998
, 1797
- Reactions potentially related to coenzyme B12 dependent rearrangements: observations on the radical [1,2]-acyl and -thiol ester migrations. Wayne M. Best, Anthony P. F. Cook, James J. Russell, David A. Widdowson
, J. Chem. Soc., Perkin Trans. 1
, 1986
, 1139
- Chapter 10. Synthetic methods. P. A. Chaloner
, Annu. Rep. Prog. Chem., Sect. B: Org. Chem.
, 1988
, 85
, 265