| 1 |
Studies of oxidative degradation in polyamide RO membrane barrier layers using pendant drop mechanical analysis
Soice NP, Greenberg AR, Krantz WB, Norman AD
Journal of Membrane Science, 243(1-2), 345, 2004 |
| 2 |
Oxidative degradation of polyamide reverse osmosis membranes: Studies of molecular model compounds and selected membranes
Soice NP, Maladono AC, Takigawa DY, Norman AD, Krantz WB, Greenberg AR
Journal of Applied Polymer Science, 90(5), 1173, 2003 |
| 3 |
Synthesis, characterization, and solution properties of skeletally stabilized triphosphazanes
Helm ML, Katz SA, Imiolczyk TW, Hands RM, Norman AD
Inorganic Chemistry, 38(13), 3167, 1999 |
| 4 |
New cleft-containing heterosubstituted cyclophosphazanes
Helm ML, Noll BC, Norman AD
Inorganic Chemistry, 37(18), 4478, 1998 |
| 5 |
Silylphosphide Reagents in Synthetic Routes to Cyclophosphines
Brandt PF, Schubert DM, Norman AD
Inorganic Chemistry, 36(8), 1728, 1997 |
| 6 |
(Trimethylsilyl)Phosphine as a Versatile Reagent for Syntheses of New 4-Silaphosphorinanes and 4-Phosphaphosphorinanes
Hackney ML, Schubert DM, Brandt PF, Haltiwanger RC, Norman AD
Inorganic Chemistry, 36(9), 1867, 1997 |
| 7 |
Synthesis and Coordination of a Cleft-Stabilized Triphosphazane Hydride - C6H4N2(P(S)(Net(2))(2))2Ph
Young SM, Carperos V, Norman AD
Inorganic Chemistry, 35(7), 2000, 1996 |
| 8 |
Comparative Reactivity of the (Trimethylsilyl)Phosphines (Me(3)Si)(3-N)Phn (N=1,2) in Radical Reactions
Schubert DM, Brandt PF, Norman AD
Inorganic Chemistry, 35(21), 6204, 1996 |
| 9 |
Cleft Reactivity in Skeletally-Stabilized Cyclotetraphosphazanes
Young SM, Barendt JM, Carperos V, Haltiwanger RC, Hands RM, Norman AD
Inorganic Chemistry, 34(20), 5003, 1995 |
| 10 |
Diastereoselectivity in the Formation of Skeletally Stabilized Phosphazanes
Katz SA, Allured VS, Norman AD
Inorganic Chemistry, 33(9), 1762, 1994 |
