| Contents
|
|
Preface
H.
Chéradame, J.-P. Vairon |
|
| Quo
vadis ionic polymerizations |
1 |
| P.
Sigwalt
|
|
| The
role of pyridine derivatives in living carbocationic polymerization:
Lewis base or nucleophile? |
11 |
| Y.
C. Bae, R. Faust* |
|
| Model
kinetic study of TiC14-induced ionization of polyisobutene capped
with diphenylethylene application to the synthesis of block copolymers |
25 |
B.
Charleux, M. Moreau, J-P. Vairon*, S. Hadjikyriacou, R. Faust
|
|
| Tandem
transition metal catalyzed isomerization and cationic polymerization |
37 |
| J.
V. Crivello*, S. K. Rajararnan |
|
| Design
of new polymer architectures by combination of anionic and cationic
living polymerization techniques |
45 |
| A.
Deffieux*, M. Schappacher |
|
| Poly(vinyl
ethers) as building blocks for new materials |
57 |
E.
J. Goethals*, W. Reyntjens, S. Lievens
|
|
| Open
mechanistic problems of quasiliving carbocationic polymerization
of olefins mediated by nucleophilic additive |
65 |
| B.
Iván |
|
| The
propagating species in living cationic polymerization: living
nature and steric structure of polymers |
75 |
| S.
Kanaoka, M. Sawamoto, T. Higashimura* |
|
|
Transformation
of "living" carbocationic and other polymerizations to controlled/"I
iv in ng" radical polymerization
|
85 |
K.
Matyjaszewski
|
|
| Alkyl
chloride-boron trichloride initiated polymerizations of isobutylene:
detailed analysis of the initial propagation steps |
103 |
H.
Mayr*, M. Roth
|
|
| Star-branched
and hyperbranched polyisobutylenes
|
117 |
| J.
E. Puskas*, M. Grasmüller
|
|
| Some
still unsolved problems in carbocationic polymerization |
127 |
| P.
Sigwalt |
|
| The
roles of electron donors in the cationic polymerization |
143 |
| G.
Wu, Y. Wu, W. Guo, G. Rao |
|
| Addition-fragmentation
type initiators for cationic polymerization |
153 |
| Y.
Yakci*,
L. Reetz |
|
| Specific
solvent effects of dioxane and N,N.N',N'-tetramethylethylenediamine
in the anionic polymerization of styrene with Li+ as counterion |
165 |
| J.
Bastiaens, P. Huyskens, M. Van Beylen* |
|
| Synthesis
of homo- and block copolymer multi-armed methacrylic star polymers
by triisobutylaluminium/tert- butyllithium initiation |
187 |
| M.
C. Crossman, D. M. Haddleton* |
|
| Anionic
polymerization and copolymerization of macromonomers: kinetics,
structure control |
197 |
Y.
Ederle, F. Isel, S. Grutke, P. J. Lutz*
|
|
| Model
block copolymers with complex architecture |
207 |
| N.
Hadjichristidis* Y. Poulos, A. Avgeropoulos |
|
| Preparation
of uniform stereoregular polymer, stereoblock polymer and copolymer
of methacrylate, and their stereocomplex formation |
221 |
| K.
Hatada*, T. Kitayama, K. Ute, T. Nishiura |
|
| Styrolux
and Styroflex - from transparent high impact polystyrene to new
thermoplastic elastomers. Synthesis, applications and blends with
other styrene based polymers |
231 |
| K.
Knoll*, N. Nießner |
|
| The
anionic polymerization of dialkylaminoisoprenes - 5. Copolymerization
with 1,3-butadiene |
245 |
G.
Mannebach, R. Bieringer R. Morschäduser R. Stadler*#
|
|
| New
o-µ ligands for the anionic polymerization of methacrylates
in apolar medium |
249 |
| J.
Marchal, M. Fontanille, Y. Gnanou* |
|
| Ligated
anionic polymerization: an innovative Elf-Atochem technology for
the polymerization of (meth)acrylates |
263 |
| C.
Navarro*, X. Marcarian, B. Vuillemin |
|
| Stereoregular
polymerization of methyl methacrylate initiated by dialkylmagnesium-quatemary
ammonium salt adducts |
273 |
| C.
P. Novakov, C. B. Tsvetanov* |
|
| Polymer
synthesis using functionalized alkyllithium initiators: telechelic,
heterotelechelic and functionalized star-branched polymers |
281 |
| R.
P. Quirk*, S. H. Jang, H. Yang, Y. Lee |
|
| Novel
initiating systems for the living polymerization of acrylates
and methacrylates |
293 |
| H.
Schlaad, B. Schmitt, A. H. E. Müller*, S. Jüngling,
H. Weiss |
|
| Living
anionic polymerization of (meth)acrylic esters: new mechanistic
concepts and resulting materials |
303 |
| P.
Teyssié*, J. Baran, P. Dubois, R. Jérome, J. Wang,
J. Yu, Y. Yu, T. Zundel |
|
| Ylide
mediated polymerization of methacrylates and acrylates in the
presence of tetraphenylphosphonium cation |
309 |
| A.
P. Zagala, D. Dimov, T. E. Hogen-Esch* |
|
| Optically
active polymers of 3-alkylmalic acids: contribution of the bioconversion
for diversifying the chiral precursors |
337 |
| M.-M.Bear,
V. Langlois, M. Masure, P. Guerin |
|
| Copolyethers
with controlled structure: mechanism of formation and microstructure |
349 |
| M.
Bednarek, P. Kubisa* |
|
| Ionic
polymerization in aqueous emulsion |
359 |
| A.
De Gunzbourg, S. Maisonnier J.-C. Favier C. Maitre, M. Masure,
P. Hémery* |
|
| Cationic
equilibrium ring-opening polymerization of bicyclic monomers and
its application to chemical recycling |
371 |
T.
Endo*, F. Sanda
|
|
| Regioselective
ring-opening anionic polymerization of ß-lactones |
377 |
| Z.
Jedlinski |
|
| Synthesis
of novel polymeric materials based on aliphatic polyesters by
combination of different controlled polymerization methods |
385 |
| R.
Jérome*, D. Mecerreyes, D. Tian, P. Dubois, C. J. Hawker
M. Trollsas, J. L. Hedrick |
|
| Selectivity
of siloxane-siloxane copolymer synthesis by ring opening polymerization |
405 |
| K.
Kazmierski, M. Cypryk, J. Chojnowski* |
|
| Enzymatic
ring-opening polyaddition for chitin synthesis: a cationic mechanism
in basic solution? |
415 |
| T.
Kiyosada, S. Shoda, S. Kobayashi*
|
|
| Cationic
polymerization of aliphatic cyclocarbonates |
421 |
| H.
R. Kricheldorf*, B. Weegen-Schulz, J. Jenssen |
|
| Specific
phenomena during the copolymerization of trioxane and ethylene
oxide |
431 |
| J.
Masamoto*, K. Matsuzaki |
|
| Intra
- and intermolecular chain transfer to macromolecules with chain
scission. The case of cyclic esters |
441 |
S.
Penczek*, A. Duda, R. Szymanski
|
|
| Mechanism
of particle formation and kinetics of the dispersion polymerization
of cyclic esters |
451 |
| S.
Slomkowski*, M. Gadzinowski, S. Sosnowski |
|
