CaO Catalyzed Transesterification of Ethyl 10-Undecenoate as a Model Reaction for Efficient Conversion of Plant Oils and Their Application to Depolymerization of Aliphatic Polyesters

Abstract: Transesterification of ethyl 10-undecenoate (derived from castor oil) with cyclohexanemethanol over a CaO catalyst (prebaked at 300 °C) gave undec-10-enoate exclusively (yield 92%, selectivity 95−98%) at 100 °C, and the activity increased at 120 °C with maintaining the high selectivity (97− 98%). The transesterification with other alcohols, especially primary alcohols (2-ethyl-1-butanol, 1-hexanol, 3-buten-1-ol, and 10-undecen-1-ol), afforded the corresponding esters with high selectivity, indicating the possi… Show more

“…Aliphatic polyesters derived from plant resources are attracting considerable attention − not only as an alternative of petroleum-based polymers but also in terms of their circular economy − due to rather facile chemical recycling by the depolymerization (through transesterification, etc. ) − compared to conventional polyolefins. These polyesters would also provide a possibility as new promising materials with better mechanical properties through interpolymer interactions as well as better compatibility with biobased fibers (described below).…”

Synthesis of High Molecular Weight Biobased Aliphatic Polyesters Exhibiting Tensile Properties Beyond Polyethylene

“…Aliphatic polyesters derived from plant resources are attracting considerable attention − not only as an alternative of petroleum-based polymers but also in terms of their circular economy − due to rather facile chemical recycling by the depolymerization (through transesterification, etc. ) − compared to conventional polyolefins. These polyesters would also provide a possibility as new promising materials with better mechanical properties through interpolymer interactions as well as better compatibility with biobased fibers (described below).…”

Synthesis of High Molecular Weight Biobased Aliphatic Polyesters Exhibiting Tensile Properties Beyond Polyethylene

Polymer composites of biobased aliphatic polyesters with natural abundant fibers that improve the mechanical properties

Efficient chemical depolymerization of polyethylene terephthalate via transesterification with ethanol using CaO catalyst