1994
DOI: 10.1002/app.1994.070510609
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Spontaneous hydrolytic degradability of copolyesters having tetrahydropyran rings in their backbones

Abstract: SYNOPSISHomo-and copolyesters, containing 2,5-linked tetrahydropyran rings in their backbones, were prepared by cationic ring-opening polymerization of bicyclic lactones, 2,g-dioxabicyclo [ 2.2.21 octan-3-one ( 1 ), and its 4-methoxy-carbonyl and 4-benzyloxycarbonyl derivatives ( 3 and 4 ) . Copolyesters, having pendant carboxyl groups, were derived from the copolymers containing 4 as one of the comonomers by the catalytic hydrogenolysis of the pendant benzyloxyxarbonyl groups. Copolyesters, containing both 2,… Show more

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Cited by 6 publications
(4 citation statements)
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“…The development of the ROP of lactones saw a large surge in popularity in the 1990s with the growing public awareness of environmental issues and rising prices of petroleum (Scheme ). The periodic table in Figure highlights any element that bonds or coordinates with an active site for lactone polymerization, and illustrates the massive number of catalysts reported for the ring opening polymerizations of lactones. , The most commonly used metals are zinc, aluminum, tin, yttrium, and lanthanides. New metal catalysts providing higher polymerization rates at lower loadings, while maintaining molecular weight and stereocontrol are continuously being reported. , Additionally, the development of highly active catalysts has enabled the polymerization of novel monomers, like (un)­substituted butyrolactones, that can be easily depolymerized, opening up new possibilities for fully recyclable polymeric systems. …”
Section: Heterocyclic Monomersmentioning
confidence: 99%
See 1 more Smart Citation
“…The development of the ROP of lactones saw a large surge in popularity in the 1990s with the growing public awareness of environmental issues and rising prices of petroleum (Scheme ). The periodic table in Figure highlights any element that bonds or coordinates with an active site for lactone polymerization, and illustrates the massive number of catalysts reported for the ring opening polymerizations of lactones. , The most commonly used metals are zinc, aluminum, tin, yttrium, and lanthanides. New metal catalysts providing higher polymerization rates at lower loadings, while maintaining molecular weight and stereocontrol are continuously being reported. , Additionally, the development of highly active catalysts has enabled the polymerization of novel monomers, like (un)­substituted butyrolactones, that can be easily depolymerized, opening up new possibilities for fully recyclable polymeric systems. …”
Section: Heterocyclic Monomersmentioning
confidence: 99%
“…Elements with catalytic activity for the ROP of lactones (colored), including metals (orange) and nonmetals (green). Gray lettering designates synthetically prepared elements. , …”
Section: Heterocyclic Monomersmentioning
confidence: 99%
“…Two major approaches to solving environmental pollution due to plastic waste have been proposed. [1][2][3][4] One involves product design using readily recyclable polymers; the other is the development of environmentally degradable polymeric materials, because the marine environment properties of photo-or biodegradability are of no benefit in fishing net, lines, or traps remaining under water. Development of hydrolytically degradable polymers, however, would be highly appropriate for marine applications.…”
Section: Introductionmentioning
confidence: 99%
“…As a result, the used plastics may have a lifetime of hundreds of years, and this definitely becomes a serious problem in solid-waste man-agement. In the literature, [1][2][3][4][5][6] various approaches have been considered to alleviate the harmful impact of plastic materials on the environment by designing and manufacturing biodegradable polymers. In general, the approach can be divided into three categories: The first is the incorporation of the chromophore or group susceptible to hydrolysis attack by microorganisms during the formulation.…”
Section: Introductionmentioning
confidence: 99%