Startseite Is the single transition-state model appropriate for the fundamental reactions of organic chemistry?
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Is the single transition-state model appropriate for the fundamental reactions of organic chemistry?

  • Vernon D. Parker
Veröffentlicht/Copyright: 1. Januar 2009
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Pure and Applied Chemistry
Aus der Zeitschrift Pure and Applied Chemistry Band 77 Heft 11

Published Online: 2009-01-01
Published in Print: 2005-01-01

© 2013 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Preface
  2. Preface
  3. Kinetics of electrophile-nucleophile combinations: A general approach to polar organic reactivity
  4. Is the single transition-state model appropriate for the fundamental reactions of organic chemistry?
  5. Cycloproparenyl anions: From models to real systems
  6. Advanced opto-electronics materials by fullerene and acetylene scaffolding
  7. Cyclodextrin-based catalysts and molecular reactors
  8. An alternative view of enzyme catalysis
  9. Bioantioxidants: From chemistry to biology
  10. Stability in chemistry and biology: Life as a kinetic state of matter
  11. International collaboration in drug discovery and development from natural sources
  12. Unusual metabolites from some Tanzanian indigenous plant species
  13. Economic drug discovery and rational medicinal chemistry for tropical diseases
  14. Nonspecific sensor arrays ("electronic tongue") for chemical analysis of liquids (IUPAC Technical Report)
  15. Provisional Nomenclature Recommendations
https://doi.org/10.1351/pac200577111823
Schlagwörter für diesen Artikel
dynamic residual absorbance analysis; extent of reaction dependence of KIE; mechanism analysis; mechanism probes; Non-steady-state kinetics

Artikel in diesem Heft

  1. Preface
  2. Preface
  3. Kinetics of electrophile-nucleophile combinations: A general approach to polar organic reactivity
  4. Is the single transition-state model appropriate for the fundamental reactions of organic chemistry?
  5. Cycloproparenyl anions: From models to real systems
  6. Advanced opto-electronics materials by fullerene and acetylene scaffolding
  7. Cyclodextrin-based catalysts and molecular reactors
  8. An alternative view of enzyme catalysis
  9. Bioantioxidants: From chemistry to biology
  10. Stability in chemistry and biology: Life as a kinetic state of matter
  11. International collaboration in drug discovery and development from natural sources
  12. Unusual metabolites from some Tanzanian indigenous plant species
  13. Economic drug discovery and rational medicinal chemistry for tropical diseases
  14. Nonspecific sensor arrays ("electronic tongue") for chemical analysis of liquids (IUPAC Technical Report)
  15. Provisional Nomenclature Recommendations
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