Conformations of Five‐Membered Rings B Fuchs Topics in Stereochemistry, 1-94, 1979 | 149 | 1979 |
Amplification of dynamic chiral crown ether complexes during cyclic acetal formation B Fuchs, A Nelson, A Star, JF Stoddart, S Vidal Angewandte Chemie-International Edition, 2003 | 95 | 2003 |
Probing the anomeric effect. Trimethylsilyloxy and tert-butoxy substituents in 1, 4-dioxane derivatives: theory vs. experiment P Aped, Y Apeloig, A Ellencweig, B Fuchs, I Goldberg, M Karni Journal of the American Chemical Society 109 (5), 1486-1495, 1987 | 76 | 1987 |
Probing the anomeric effect: the structural criterion B Fuchs, L Schleifer, E Tartakowsky Nouveau journal de chimie (1977) 8 (5), 275-278, 1984 | 71 | 1984 |
Solvent polarity and the anomeric effect B Fuchs, A Ellencweig, E Tartakovsky, P Aped Angewandte Chemie International Edition in English 25 (3), 287-289, 1986 | 54 | 1986 |
Dioxadiazadecalin/salen tautomeric macrocycles and complexes: prototypal dynamic combinatorial virtual libraries A Star, I Goldberg, B Fuchs Angewandte Chemie 112 (15), 2797-2801, 2000 | 52 | 2000 |
Diagnostic structural criteria for the anomeric effect in carbohydrates and inferences of general significance on their scope and limitations L Schleifer, H Senderowitz, P Aped, E Tartakovsky, B Fuchs Carbohydrate research 206 (1), 21-39, 1990 | 52 | 1990 |
New supramolecular host systems. 2. 1, 3, 5, 7-tetraoxadecalin, 1, 2-dimethoxyethane and the Gauche effect reappraised. Theory vs. experiment. H Senderowitz, L Golender, B Fuchs Tetrahedron 50 (32), 9707-9728, 1994 | 47 | 1994 |
Probing the anomeric effect. The diaminomethylene group: Calculations of NCN‐containing molecular systems1 P Aped, L Schleifer, B Fuchs, S Wolfe Journal of computational chemistry 10 (2), 265-283, 1989 | 45 | 1989 |
The Photochemical and Thermal Interconversion of Some Cyclopentadienone Dimers U Klinsmann, J Gauthier, K Schaffner, M Pasternak, B Fuchs Helvetica Chimica Acta 55 (7), 2643-2659, 1972 | 41 | 1972 |
Probing the Anomeric Effect in OCN Systems Theory vs. Experiment: MO‐ab initio Calculations and a Structural‐Statistical Analysis H Senderowitz, P Aped, B Fuchs Helvetica chimica acta 73 (8), 2113-2128, 1990 | 40 | 1990 |
Toward novel polyacetals by transacetalation techniques: dendrimeric diacetals NG Lemcoff, B Fuchs Organic Letters 4 (5), 731-734, 2002 | 38 | 2002 |
Stereoelectronic effects in negatively and positively (protonated) charged species. Ab initio studies of the anomeric effect in 1, 3-dioxa systems B Ganguly, B Fuchs The Journal of Organic Chemistry 62 (25), 8892-8901, 1997 | 38 | 1997 |
Diazadioxadecalin and salen podands and macrocycles within dynamic combinatorial virtual libraries: structure, prototropy, complexation and enantioselective catalysis A Star, I Goldberg, B Fuchs Journal of Organometallic Chemistry 630 (1), 67-77, 2001 | 37 | 2001 |
Topics in Stereochemistry B Fuchs vol 10, 1-94, 1978 | 34 | 1978 |
Modified MM2 scheme for computation of O C N‐containing systems H Senderowitz, P Aped, B Fuchs Journal of computational chemistry 14 (8), 944-960, 1993 | 31 | 1993 |
Novel bromination reagents· hexabromocyclopentadiene: bromination of activated saturated sites S Magen, J Oren, B Fuchs Tetrahedron letters 25 (31), 3369-3372, 1984 | 31 | 1984 |
Computation of OCF and NCF systems: AB-initio calculations and a MM2 parameterization study. Theory vs. experiment H Senderowitz, P Aped, B Fuchs Tetrahedron 49 (18), 3879-3898, 1993 | 30 | 1993 |
Mechanism of Formation and Stabilities of the New Dioxadiazadecalin Systems. Ring−Chain Tautomerism1 A Star, B Fuchs The Journal of Organic Chemistry 64 (4), 1166-1172, 1999 | 27 | 1999 |
Computation of NCN systems: Theory vs. experiment H Senderowitz, P Aped, B Fuchs Tetrahedron 48 (6), 1131-1144, 1992 | 27 | 1992 |