Sason Shaik
Sason Shaik
Professor of Chemistry, Institute of Chemistry, The Hebrew University of Jerusalem
Verified email at yfaat.ch.huji.ac.il
Title
Cited by
Cited by
Year
Mechanism of oxidation reactions catalyzed by cytochrome P450 enzymes
B Meunier, SP De Visser, S Shaik
Chemical reviews 104 (9), 3947-3980, 2004
22152004
Theoretical perspective on the structure and mechanism of cytochrome P450 enzymes
S Shaik, D Kumar, SP de Visser, A Altun, W Thiel
Chemical reviews 105 (6), 2279-2328, 2005
10822005
Two-State Reactivity as a New Concept in Organometallic Chemistry
D Schröder, S Shaik, H Schwarz
Accounts of chemical research 33 (3), 139-145, 2000
10642000
How to conceptualize catalytic cycles? The energetic span model
S Kozuch, S Shaik
Accounts of Chemical Research 44 (2), 101-110, 2011
9322011
P450 Enzymes: Their Structure, Reactivity, and Selectivity Modeled by QM/MM Calculations
S Shaik, S Cohen, Y Wang, H Chen, D Kumar, W Thiel
Chemical reviews 110 (2), 949-1017, 2010
8182010
Theoretical Aspects of Physical Organic Chemistry. The SN2 Mechanism
SS Shaik, HB Schlegel, S Wolfe
Wiley, New S, 1992
652*1992
A chemist's guide to valence bond theory
SS Shaik, PC Hiberty
John Wiley & Sons, 2008
4972008
Reactivity of high-valent iron–oxo species in enzymes and synthetic reagents: a tale of many states
S Shaik, H Hirao, D Kumar
Accounts of chemical research 40 (7), 532-542, 2007
4672007
A model “rebound” mechanism of hydroxylation by cytochrome P450: stepwise and effectively concerted pathways, and their reactivity patterns
F Ogliaro, N Harris, S Cohen, M Filatov, SP de Visser, S Shaik
Journal of the American Chemical Society 122 (37), 8977-8989, 2000
3992000
A qualitative valence-bond approach to organic reactivity
A Pross, SS Shaik
Accounts of Chemical Research 16 (10), 363-370, 1983
3861983
Electronic Structure Makes a Difference: Cytochrome P‐450 Mediated Hydroxylations of Hydrocarbons as a Two‐State Reactivity Paradigm
S Shaik, M Filatov, D Schröder, H Schwarz
Chemistry–A European Journal 4 (2), 193-199, 1998
3801998
What happens to molecules as they react? A valence bond approach to reactivity
SS Shaik
Journal of the American Chemical Society 103 (13), 3692-3701, 1981
3771981
A combined kinetic− quantum mechanical model for assessment of catalytic cycles: Application to cross-coupling and Heck reactions
S Kozuch, S Shaik
Journal of the American Chemical Society 128 (10), 3355-3365, 2006
3702006
Axial ligand tuning of a nonheme iron (IV)–oxo unit for hydrogen atom abstraction
CV Sastri, J Lee, K Oh, YJ Lee, J Lee, TA Jackson, K Ray, H Hirao, ...
Proceedings of the National Academy of Sciences 104 (49), 19181-19186, 2007
3562007
VB diagrams and chemical reactivity
S Shaik, A Shurki
Angew. Chem. Int. Ed 38, 586-625, 1999
352*1999
The Collage of SN2 Reactivity Patterns: A State Correlation Diagram Model
SS SHAIK
Progress in physical organic chemistry 15, 197, 2009
3262009
Two-state reactivity in alkane hydroxylation by non-heme iron− oxo complexes
H Hirao, D Kumar, L Que Jr, S Shaik
Journal of the American Chemical Society 128 (26), 8590-8606, 2006
3262006
Electronic structures and gas-phase reactivities of cationic late-transition-metal oxides
A Fiedler, D Schroeder, S Shaik, H Schwarz
Journal of the American Chemical Society 116 (23), 10734-10741, 1994
3241994
Two-state reactivity mechanisms of hydroxylation and epoxidation by cytochrome P-450 revealed by theory
S Shaik, SP de Visser, F Ogliaro, H Schwarz, D Schröder
Current opinion in chemical biology 6 (5), 556-567, 2002
3232002
Two‐state reactivity in organometallic gas‐phase ion chemistry
S Shaik, D Danovich, A Fiedler, D Schröder, H Schwarz
Helvetica chimica acta 78 (6), 1393-1407, 1995
3131995
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