| 1 |
"Stereoscopic" 2D super-microporous phosphazene-based covalent organic framework: Design, synthesis and selective sorption towards uranium at high acidic condition
Zhang S, Zhao XS, Li B, Bai CY, Li Y, Wang L, Wen R, Zhang MC, Ma LJ, Li SJ
Journal of Hazardous Materials, 314, 95, 2016 |
| 2 |
Synthesis of cyclotriphosphazene-containing polymeric nanotubes and their use as metal-free photocatalysts for methylene blue degradation
Li ZK, Wang GH, Liang C, Zhang AQ
Applied Surface Science, 347, 541, 2015 |
| 3 |
Kinetic study of reaction of hexachlorocyclophosphazene with phenol by triphase catalysis
Wu HS, Meng SS
Canadian Journal of Chemical Engineering, 77(6), 1146, 1999 |
| 4 |
P-31 NMR analysis of cyclotriphosphazenes
Wu HS, Meng SS
Industrial & Engineering Chemistry Research, 37(2), 675, 1998 |
| 5 |
Molecular Characterization of a Copolymer of 2-Allylphenoxyorganocyclotriphosphazene with Styrene, Methyl-Methacrylate and Vinylbenzyl Chloride
Wu HS, Ke DY
Polymer, 38(2), 431, 1997 |
| 6 |
On the Synthesis of Functionalized Cyclic and Polymeric Aryloxyphosphazenes from Phenols
Carriedo GA, Fernandezcatuxo L, Alonso FJ, Elipe PG, Gonzalez PA, Sanchez G
Journal of Applied Polymer Science, 59(12), 1879, 1996 |
| 7 |
Kinetics of a Sequential Phosphazene Reaction by Phase-Transfer Catalysis
Wu HS, Meng SS
Journal of Chemical Engineering of Japan, 29(6), 1007, 1996 |
| 8 |
Synthesis and Properties of Low-Molecular-Weight Polyphosphazenes
Sohn YS, Cho YH, Baek H, Jung OS
Macromolecules, 28(22), 7566, 1995 |
| 9 |
New Heterofunctional Cyclophosphazenes with Carbonyl and Double-Bond Functions
Drozd J, Brandt K, Kupka T
Inorganic Chemistry, 33(16), 3602, 1994 |
| 10 |
Dilute-Solution Characterization of Polyphosphazenes
Tarazona MP
Polymer, 35(4), 819, 1994 |
