The mechanism of the Mitsunobu esterification reaction. Part I. The involvement of phosphoranes and oxyphosphonium salts D Camp, ID Jenkins The Journal of Organic Chemistry 54 (13), 3045-3049, 1989 | 172 | 1989 |
4'-Substituted nucleosides. 2. Synthesis of the nucleoside antibiotic nucleocidin ID Jenkins, JPH Verheyden, JG Moffatt Journal of the American Chemical Society 98 (11), 3346-3357, 1976 | 142 | 1976 |
Ionic and Neutral Mechanisms for C–H Bond Silylation of Aromatic Heterocycles Catalyzed by Potassium tert-Butoxide S Banerjee, YF Yang, ID Jenkins, Y Liang, AA Toutov, WB Liu, ... Journal of the American Chemical Society 139 (20), 6880-6887, 2017 | 126 | 2017 |
Multisite modification of neomycin B: combined Mitsunobu and click chemistry approach S Quader, SE Boyd, ID Jenkins, TA Houston The Journal of Organic Chemistry 72 (6), 1962-1979, 2007 | 113 | 2007 |
Reactions of 2-Acyloxyisobutyryl Halides with Nucleosides. 1V. l A Facile Synthesis of 2, 3-Unsaturated Nucleosides Using Chromous Acetate TC Jain, ID Jenkins, AF Russell, JPH Verheyden, JG Moffatt The Journal of Organic Chemistry 39 (1), 30-38, 1974 | 99 | 1974 |
Identification of the loci of the collagen-associated Ehrlich chromogen in type I collagen confirms its role as a trivalent cross-link R Kuypers, M Tyler, LB Kurth, ID Jenkins, DJ Horgan Biochemical Journal 283 (1), 129-136, 1992 | 95 | 1992 |
The mechanism of the Mitsunobu esterification reaction. Part II. The involvement of (acyloxy) alkoxyphosphoranes D Camp, ID Jenkins The Journal of Organic Chemistry 54 (13), 3049-3054, 1989 | 93 | 1989 |
Synthesis of the nucleoside antiobiotic nucleocidin JG Moffatt, ID Jenkins, JPH Verheyden Journal of the American Chemical Society 93 (17), 4323-4324, 1971 | 93 | 1971 |
The use of a phosphine containing a basic group in the Mitsunobu esterification reaction D Camp, ID Jenkins Australian Journal of Chemistry 41 (12), 1835-1839, 1988 | 88 | 1988 |
Stereochemical aspects of phosphorus chemistry MJ Gallagher, ID Jenkins Topics in stereochemistry, 1-96, 1968 | 86 | 1968 |
The Hendrickson reagent and the Mitsunobu reaction: a mechanistic study KE Elson, ID Jenkins, WA Loughlin Organic & biomolecular chemistry 1 (16), 2958-2965, 2003 | 73 | 2003 |
The mechanism of the Mitsunobu reaction. II. Dialkoxytriphenylphosphoranes M von Itzstein, ID Jenkins Australian Journal of Chemistry 36 (3), 557-563, 1983 | 70 | 1983 |
Transition metal organometallics in organic synthesis AJ Birch, ID Jenkins, R NOYORI, CP CASEY vol 1, 32, 1976 | 69 | 1976 |
Improved synthesis of ‘cord factor’analogues S Bottle, ID Jenkins Journal of the Chemical Society, Chemical Communications, 385-385, 1984 | 58 | 1984 |
The mechanism of the Mitsunobu reaction. III. The use of tributylphosphine D Camp, ID Jenkins Australian Journal of Chemistry 45 (1), 47-55, 1992 | 55 | 1992 |
The mechanism of the Mitsunobu reaction. A 31P NMR study RD Guthrie, ID Jenkins Australian Journal of Chemistry 35 (4), 767-774, 1982 | 55 | 1982 |
Formation of radicals in the mitsunobu reaction D Camp, GR Hanson, ID Jenkins The Journal of Organic Chemistry 60 (10), 2977-2980, 1995 | 52 | 1995 |
Free radical polymerization of acrylonitrile: Mass spectrometric identification of the nitroxide-trapped oligomers formed in and estimated rate constants for each of the first … PB Zetterlund, WK Busfield, ID Jenkins Macromolecules 32 (24), 8041-8045, 1999 | 49 | 1999 |
Thermal Decomposition Mechanisms of tert-Alkyl Peroxypivalates Studied by the Nitroxide Radical Trapping Technique T Nakamura, WK Busfield, ID Jenkins, E Rizzardo, SH Thang, S Suyama The Journal of Organic Chemistry 65 (1), 16-23, 2000 | 48 | 2000 |
Euodenine A: A small-molecule agonist of human TLR4 JE Neve, HP Wijesekera, S Duffy, ID Jenkins, JA Ripper, SJ Teague, ... Journal of Medicinal Chemistry 57 (4), 1252-1275, 2014 | 47 | 2014 |