| 1 |
Use of Empirical Correlations to Determine Solvent Effects in the Solvolysis of S-Methyl Chlorothioformate
D'Souza MJ, Hailey SM, Kevill DN
International Journal of Molecular Sciences, 11(5), 2253, 2010 |
| 2 |
Grunwald-Winstein Analysis - Isopropyl Chloroformate Solvolysis Revisited
D'Souza MJ, Reed DN, Erdman KJ, Kyong JB, Kevill DN
International Journal of Molecular Sciences, 10(3), 862, 2009 |
| 3 |
Extended Grunwald-Winstein Analysis - LFER Used to Gauge Solvent Effects in p-Nitrophenyl Chloroformate Solvolysis
D'Souza MJ, Shuman KE, Carter SE, Kevill DN
International Journal of Molecular Sciences, 9(11), 2231, 2008 |
| 4 |
Correlations of the specific rates of solvolysis of aromatic carbamoyl chlorides, chloroformates, chlorothionoformates, and chlorodithioformates revisited
Kevill DN, Koyoshi F, D'Souza MJ
International Journal of Molecular Sciences, 8(4), 346, 2007 |
| 5 |
Consideration of the factors influencing the specific rates of solvolysis of p-methoxyphenyl chloroformate
D'Souza MJ, Reed D, Koyoshi F, Kevill DN
International Journal of Molecular Sciences, 8(8), 788, 2007 |
| 6 |
Polymerization of Methyl and Phenyl Oxazoline Initiated with Carboxylic-Acid Chlorides
Dworak A
Polymer Bulletin, 38(1), 7, 1997 |
| 7 |
Branched polymers starting from ethylene-vinyl acetate copolymers
Panchev I, Velichkova R, Dworak A, Schulz RC
Reactive & Functional Polymers, 27(1), 53, 1995 |
