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James C. W. Chien and Sizhong Dong
Journal Article
Novel initiating system based on AlCl 3 etherate for quasiliving cationic polymerization of styrene
Sergei V. Kostjuk, Alexei Yu. Dubovik, Irina V. Vasilenkol, Vyacheslav P. Mardykin and Ludmila V. Gaponik, et al.
Polymer Bulletin, 2004, Volume 52, Numbers 3-4, Pages 227-234
Book Chapter
Epoxide Activated Anionic Polymerization: Application to the Synthesis of (Co)Polyethers with Controlled Structure and Tuned Properties
Amelie Labbe, Virginie Rejsek, Stephane Carlotti and Alain Deffieux
NATO Science for Peace and Security Series A: Chemistry and Biology, 2009, New Smart Materials via Metal Mediated Macromolecular Engineering, 3, Pages 187-193
Lifetime of the propagating species in the cationic polymerization of p-methoxystyrene
Toshinobu Higashimura and Mitsuo Sawamoto
Polymer Bulletin, 1978, Volume 1, Number 1, Pages 11-15
Living polymerization and selective dimerization: Two extremes of the polymer synthesis by cationic polymerization
Advances in Polymer Science, 1984, Volume 62, Initiators — Poly-Reactions — Optical Activity, Pages 49-94
SBA-15 Immobilized Ruthenium Carbenes as Catalysts for Ring Closing Metathesis and Ring Opening Metathesis Polymerization
David Bek, Naděžda Žilková, Jiří Dědeček, Jan Sedláček and Hynek Balcar
Topics in Catalysis, 2010, Volume 53, Numbers 3-4, Pages 200-209
Architecture and solution properties of hyperbranched polymers via the living radical mechanism
Koji Ishizu, Akihide Mori and Takeshi Shibuya
Designed Monomers and Polymers, 2002, Volume 5, Number 1, Pages 1-21
Random and block copolymers by ring-opening polymerization
Yuya Yamashita
Advances in Polymer Science, 1978, Volume 28, Polymerization Reactions, Pages 1-46
Synthesis of Block Copolymers and Star Polymers through Living Polymerization of Substituted Acetylenes
K. Kanki, F. Sanda and T. Masuda
NATO Science Series, 1, Volume 122, Novel Metathesis Chemistry: Well-Defined Initiator Systems for Specialty Chemical Synthesis, Tailored Polymers and Advanced Material Applications, Pages 215-227
Ring Opening Metathesis Polymerisation (ROMP) of Cyclooctene and Substituted Norbornene Derivatives Using a Ruthenium Catalyst Containing a Triazol-5-Ylidene Ligand
Karen Melis, Dirk de Vos, Pierre Jacobs and Francis Verpoort
NATO Science Series, 1, Volume 122, Novel Metathesis Chemistry: Well-Defined Initiator Systems for Specialty Chemical Synthesis, Tailored Polymers and Advanced Material Applications, Pages 237-242
Romp and Related Chemistry: Past, Present and Fututre
K. J. Ivin
NATO Science Series, 1, Volume 56, Ring Opening Metathesis Polymerisation and Related Chemistry, Pages 1-15
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