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Journal of Macromolecular Science, Part A
Pure and Applied Chemistry
Volume 34, 1997 - Issue 3
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Original Articles

Polymers of Carbonic Acid. 20. High Molecular Weight Poly(Decamethylene Carbonate) by Ring-Opening Polymerization Initiated with BuSnCl3 or SnOct2

Hans R. Kricheldorf Institut für Technische und Makromolekulare Chemie der Universität Bundesstr. 45, D-20146, Hamburg, Germany
,
Andreas Mahler Institut für Technische und Makromolekulare Chemie der Universität Bundesstr. 45, D-20146, Hamburg, Germany
&
Soo-Ran Lee Institut für Technische und Makromolekulare Chemie der Universität Bundesstr. 45, D-20146, Hamburg, Germany
Pages 417-428 | Received 01 Apr 1996, Published online: 24 Sep 2006

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Jesús Miguel Contreras Ramírez & Meribary Monsalve. (2019) Use of samarium (III) acetate as initiator in ring-opening polymerization of trimethylene carbonate. Journal of Macromolecular Science, Part A 56:12, pages 1114-1120.
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Articles from other publishers (24)

Jin Huang, Peter Dinér, Vincent Nieboer, Peter Olsén & Karin Odelius. (2023) Correlation between Polymerization Rate, Mechanism, and Conformer Thermodynamic Stability in Urea/Methoxide-Catalyzed Polymerization of Macrocyclic Carbonates. Macromolecules.
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Jin Huang, Peter Olsén, Erik Svensson Grape, A. Ken Inge & Karin Odelius. (2022) Simple Approach to Macrocyclic Carbonates with Fast Polymerization Rates and Their Polymer-to-Monomer Regeneration. Macromolecules 55:2, pages 608-614.
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Bingkun Yan, Jiaqian Hou, Chao Wei, Yan Xiao, Meidong Lang & Farong Huang. (2020) Facile preparation of long-chain aliphatic polycarbonates containing block copolycarbonates via one-pot sequential organic catalyzed polymerization of macrocyclic carbonates and trimethylene carbonates . Polymer Chemistry 11:12, pages 2166-2172.
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Bingkun Yan, Bingyu Liang, Jiaqian Hou, Chao Wei, Yan Xiao, Meidong Lang & Farong Huang. (2020) Organocatalytic ring-opening polymerization of disulfide functional macrocyclic carbonates: An alternative strategy to enzymatic catalysis. European Polymer Journal 123, pages 109452.
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Geng Hua, Peter Olsén, Johan Franzén & Karin Odelius. (2018) Anionic polycondensation and equilibrium driven monomer formation of cyclic aliphatic carbonates. RSC Advances 8:68, pages 39022-39028.
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Kazuki Fukushima. 2018. Organic Catalysis for Polymerisation. Organic Catalysis for Polymerisation 274 327 .
Qiang He, Qing Zhang, Shurui Liao, Changsheng Zhao & Xingyi Xie. (2017) Understanding cyclic by-products and ether linkage formation pathways in the transesterification synthesis of aliphatic polycarbonates. European Polymer Journal 97, pages 253-262.
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Jie Zhang, Wenxiang Zhu, Chuncheng Li, Dong Zhang, Yaonan Xiao, Guohu Guan & Liuchun Zheng. (2015) Effect of the biobased linear long-chain monomer on crystallization and biodegradation behaviors of poly(butylene carbonate)-based copolycarbonates. RSC Advances 5:3, pages 2213-2222.
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Peter Olsén, Karin Odelius & Ann-Christine Albertsson. (2014) Ring-Closing Depolymerization: A Powerful Tool for Synthesizing the Allyloxy-Functionalized Six-Membered Aliphatic Carbonate Monomer 2-Allyloxymethyl-2-ethyltrimethylene Carbonate. Macromolecules 47:18, pages 6189-6195.
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Philip Hodge. (2014) Cyclodepolymerization as a method for the synthesis of macrocyclic oligomers. Reactive and Functional Polymers 80, pages 21-32.
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Philip Hodge. (2014) Entropically Driven Ring-Opening Polymerization of Strainless Organic Macrocycles. Chemical Reviews 114:4, pages 2278-2312.
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Vincent Besse, Fatou Camara, Coline Voirin, Remi Auvergne, Sylvain Caillol & Bernard Boutevin. (2013) Synthesis and applications of unsaturated cyclocarbonates. Polymer Chemistry 4:17, pages 4545.
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Philip Hodge, Stephen D. Kamau, Abderrazak Ben-Haida & Richard T. Williams. (2012) Cyclo-depolymerizations of polycarbonates in solution: Use of the macrocyclic oligomers obtained in entropically-driven ring-opening polymerizations and copolymerizations to give carbonate–carbonate and carbonate–carboxylate ester copolymers. Reactive and Functional Polymers 72:11, pages 868-877.
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G. Rokicki & P.G. Parzuchowski. 2012. Polymer Science: A Comprehensive Reference. Polymer Science: A Comprehensive Reference 247 308 .
Hua-Fen Wang, Wei Su, Chao Zhang, Xiao-hua Luo & Jun Feng. (2010) Biocatalytic Fabrication of Fast-Degradable, Water-Soluble Polycarbonate Functionalized with Tertiary Amine Groups in Backbone. Biomacromolecules 11:10, pages 2550-2557.
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Wei Su, Jun Feng, Hua-Fen Wang, Xian-Zheng Zhang & Ren-Xi Zhuo. (2010) Controllable preparation of poly(alkylene carbonate)s and observation on their structure-related odd–even effect. Polymer 51:5, pages 1010-1015.
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Hans R. Kricheldorf. (2009) Cyclic polymers: Synthetic strategies and physical properties. Journal of Polymer Science Part A: Polymer Chemistry 48:2, pages 251-284.
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Jun Feng, Hua-fen Wang, Xian-zheng Zhang & Ren-xi Zhuo. (2009) Investigation on lipase-catalyzed solution polymerization of cyclic carbonate. European Polymer Journal 45:2, pages 523-529.
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Helmut Keul. 2009. Handbook of Ring‐Opening Polymerization. Handbook of Ring‐Opening Polymerization 307 327 .
Christophe Y. Tastard, Philip Hodge, Abderrazak Ben-Haida & Martyn Dobinson. (2006) Entropically driven ring-opening metathesis polymerization (ED-ROMP) of macrocyclic olefin-containing oligoamides. Reactive and Functional Polymers 66:1, pages 93-107.
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Abderrazak Ben-HaidaPhilip HodgeHoward M. Colquhoun. (2005) Ring−Chain Interconversion in High-Performance Polymer Systems. 3. Cyclodepolymerization of Poly( m -phenylene isophthalamide) (Nomex) and Entropically Driven Ring-Opening Polymerization of the Macrocyclic Oligomers so Produced . Macromolecules 38:3, pages 722-729.
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Philip Hodge & Howard M. Colquhoun. (2005) Recent work on entropically‐driven ring‐opening polymerizations: some potential applications. Polymers for Advanced Technologies 16:2-3, pages 84-94.
Crossref
Stephen D. Kamau & Philip Hodge. (2004) Cyclo-depolymerisations of polyurethanes to give macrocyclic oligomers: entropically driven ring-opening polymerisations of the macrocyclic oligomers produced. Reactive and Functional Polymers 60, pages 55-64.
Crossref
G. Rokicki. (2000) Aliphatic cyclic carbonates and spiroorthocarbonates as monomers. Progress in Polymer Science 25:2, pages 259-342.
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