Perspectives for synthesis and production of polyurethanes and related polymers by enzymes directed toward green and sustainable chemistry

Shuichi Matsumura; Yasuyuki Soeda; Kazunobu Toshima

doi:10.1007/s00253-005-0269-2

Perspectives for synthesis and production of polyurethanes and related polymers by enzymes directed toward green and sustainable chemistry

Shuichi Matsumura, Yasuyuki Soeda, Kazunobu Toshima

応用化学科

研究成果: Short survey › 査読

63 被引用数 (Scopus)

抄録

Enzyme-catalyzed polymerization and degradation will play an important role in both the synthesis and chemical recycling of green and sustainable polyurethane. This minireview covers the new synthetic routes to polyurethane without using diisocyanate, the biodegradation of polyurethane, and the enzymatic synthesis and the chemical recycling of poly(ester-urethane) (PEU) and poly (carbonate-urethane) (PCU). The lipase-catalyzed polymerization of low molecular weight and biodegradable urethanediols with short-chain dialkyl carbonate and alkanedioates produced PCU and PEU, respectively. They were readily degraded in an organic solvent into the repolymerizable cyclic oligomers by lipase as a novel chemical recycling. These results will be applicable for the production strategies of green and sustainable polyurethanes.

本文言語	English
ページ（範囲）	12-20
ページ数	9
ジャーナル	Applied Microbiology and Biotechnology
巻	70
号	1
DOI	https://doi.org/10.1007/s00253-005-0269-2
出版ステータス	Published - 2006 3月

ASJC Scopus subject areas

バイオテクノロジー
応用微生物学とバイオテクノロジー

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10.1007/s00253-005-0269-2

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abstract = "Enzyme-catalyzed polymerization and degradation will play an important role in both the synthesis and chemical recycling of green and sustainable polyurethane. This minireview covers the new synthetic routes to polyurethane without using diisocyanate, the biodegradation of polyurethane, and the enzymatic synthesis and the chemical recycling of poly(ester-urethane) (PEU) and poly (carbonate-urethane) (PCU). The lipase-catalyzed polymerization of low molecular weight and biodegradable urethanediols with short-chain dialkyl carbonate and alkanedioates produced PCU and PEU, respectively. They were readily degraded in an organic solvent into the repolymerizable cyclic oligomers by lipase as a novel chemical recycling. These results will be applicable for the production strategies of green and sustainable polyurethanes.",

author = "Shuichi Matsumura and Yasuyuki Soeda and Kazunobu Toshima",

note = "Funding Information: (Novozym 435) was kindly supplied by Novozymes Japan Ltd. (Chiba, Japan). This work was partially supported by a Grant-in-Aid for General Scientific Research and by a Grant-in-Aid for the 21st Century COE Program “KEIO LCC” from the Ministry of Education, Culture, Sports, Science, and Technology, Japan.",

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AU - Matsumura, Shuichi

AU - Soeda, Yasuyuki

AU - Toshima, Kazunobu

N1 - Funding Information: (Novozym 435) was kindly supplied by Novozymes Japan Ltd. (Chiba, Japan). This work was partially supported by a Grant-in-Aid for General Scientific Research and by a Grant-in-Aid for the 21st Century COE Program “KEIO LCC” from the Ministry of Education, Culture, Sports, Science, and Technology, Japan.

PY - 2006/3

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N2 - Enzyme-catalyzed polymerization and degradation will play an important role in both the synthesis and chemical recycling of green and sustainable polyurethane. This minireview covers the new synthetic routes to polyurethane without using diisocyanate, the biodegradation of polyurethane, and the enzymatic synthesis and the chemical recycling of poly(ester-urethane) (PEU) and poly (carbonate-urethane) (PCU). The lipase-catalyzed polymerization of low molecular weight and biodegradable urethanediols with short-chain dialkyl carbonate and alkanedioates produced PCU and PEU, respectively. They were readily degraded in an organic solvent into the repolymerizable cyclic oligomers by lipase as a novel chemical recycling. These results will be applicable for the production strategies of green and sustainable polyurethanes.

AB - Enzyme-catalyzed polymerization and degradation will play an important role in both the synthesis and chemical recycling of green and sustainable polyurethane. This minireview covers the new synthetic routes to polyurethane without using diisocyanate, the biodegradation of polyurethane, and the enzymatic synthesis and the chemical recycling of poly(ester-urethane) (PEU) and poly (carbonate-urethane) (PCU). The lipase-catalyzed polymerization of low molecular weight and biodegradable urethanediols with short-chain dialkyl carbonate and alkanedioates produced PCU and PEU, respectively. They were readily degraded in an organic solvent into the repolymerizable cyclic oligomers by lipase as a novel chemical recycling. These results will be applicable for the production strategies of green and sustainable polyurethanes.

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