Advances in Physical Organic Chemistry
Directeurs de Collection : Williams Ian, Williams Nick
- Is the Single-Transition-State Model Appropriate for the Fundamental Reactions of Organic Chemistry? Experimental Methods and Data Treatment, Pertinent Reactions, and Complementary Computational StudiesVernon D. Parker, Zhao Li and Weifang Hao
- The Influence of Structure on Reactivity in Alkene MetathesisDavid J. Nelson and Jonathan M. Percy
- In This Molecule There Must Be A Conical IntersectionMichael A Robb
- Structure and Mechanism in Ketene ChemistryAnnette D. Allen and Thomas T. Tidwell
Nick Williams has been Professor of Physical Organic Chemistry at the University of Sheffield since 2011. He has many years experience in experimental studies that are focused on understanding mechanism and reactivity in organic chemistry. He studied for his first degree at the University of Cambridge, where he stayed for his PhD under the supervision of Tony Kirby. After a further short post doctoral period and a position as temporary lector in organic chemistry at Trinity College, Cambridge, he spent two years at McGill Univ
- Reviews the application of quantitative and mathematical methods toward understanding chemical problems
- Covers organic, organometallic, bioorganic, enzymes and materials topics
Date de parution : 11-2014
Ouvrage de 386 p.
15x22.8 cm
Thèmes d’Advances in Physical Organic Chemistry :
Mots-clés :
Alkenes; Catalysis; Conical intersections; Cycloaddition; Electrophilic aromatic substitution; Instantaneous rate constant; Intrinsic reaction coordinate diagram; Isosbestic points in mechanism analysis; Ketenes; Kinetics; Metathesis; NADH/NAD+model kinetics; Nitroalkane proton transfer; Organic photochemistry; Organic synthesis; Organometallic chemistry; Reaction mechanisms; Reversible consecutive mechanism; Ruthenium; SN2 mechanism; Structure/activity relationships; Substituent effects