Formation of Biodegradable Polyesters Membranes via Thermally Induced Phase Separation

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概要

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• Microfiltration membranes that can be composted after service were developed from biodegradable polyesters, poly(L-lactic acid) (PLLA) and poly(ε-caprolactone) (PCL). The membranes were formed via the thermally induced phase separation method. A 10 wt% PLLA solution in a mixed diluent of 1,4-dioxane and water (87:13 by weight) was prepared in a flat mold and quenched from 52°C (4°C above cloud point temperature) to 0°C. After diluent extraction, the membrane separated yeast cells (6 μm) from their suspensions. A PCL membrane formed by the same method did not reject yeast cells. PCL membranes formed by quenching a 16 wt% PCL solution to 0°C and quenching a 10 wt% PCL solution to –196°C did separate yeast cells from their suspensions. The permeation flux was much higher in the filtration of 1 kg·m–3 yeast cell suspension with the PLLA and PCL membranes formed by quenching a 10 wt% PLLA or PCL solution to –196°C than in the filtration with the PLLA membrane formed by quenching a 10 wt% PLLA solution to 0°C. The higher flux would be due to the lower resistance of the membranes formed by liquid nitrogen quenching (–196°C) and the mode of depth filtration. Porous biodegradable microfiltration membranes prepared from these polymers have the potential to serve as disposable filters in food and biochemical industries.

• 社団法人 化学工学会の論文
• 2006-02-01

著者

• Tano Tatsuo

  Department Of Bioresources Chemistry Faculty Of Agriculture Okayama University

• 田中 孝明

  新潟大・工・機能材料

• Tanaka T

  Graduate School Of Science Osaka City University

• Taniguchi Masayuki

  Department of Materials Science and Technology, Niigata University

• Tanaka Takaaki

  Department of Materials Science and Technology, Niigata University

• TSUCHIYA TAKASHI

  Department of Surgery, Sendai City Medical Center

• Ohara Hitomi

  Bio-plastic Project Department Toyota Motor Co.

• Lloyd Douglas

  Department Of Chemical Engineering University Of Texas At Austin

• Lloyd Douglas

  Department Of Chemical Engineering The University Of Texas At Austin

• Taniguchi M

  Fac. Engineering Niigata Jpn

• Taniguchi M

  Department Of Material Science And Technology Faculty Of Engineering

• Taniguchi M

  Department Of Materials Science And Technology Niigata University

• Taniguchi Masayuki

  Department Of Food Science And Technology Faculty Of Agriculture Kyoto University

• Taiyouji Mayumi

  Gaduate School Of Science And Technology Niigata University:food Research Center Niigata Agricultura

• Taniguchi Masayuki

  Gaduate School Of Science And Technology Niigata University:food Research Center Niigata Agricultura

• Tanaka Mitsuo

  Department Of Food Science And Technology Faculty Of Agriculture Kyoto University

• TAKAHASHI Hidema

  Department of Materials Science and Technology, Niigata University

• Taniguchi Masayuki

  Department Of Cardiology Jikei University School Of Medicine Daisan Hospital

• Takahashi Hidema

  Department Of Materials Science And Technology Niigata University

• Tsuchiya Takashi

  Department Of Orthopaedic Surgery Yamagata University School Of Medicine

• Tanaka Takaaki

  Department Of Geoscience Joetsu University Of Education

• Tanaka Takaaki

  Department Of Biotechnology Faculty Of Engineering Okayama University

• Tsuchiya Takashi

  Department Of Materials Science And Technology Niigata University

• Tsuchiya Takashi

  Department Of Applied Physics School Of Science And Engineering Waseda Univeristy

• Taniguchi Masayuki

  Department Of Physics Faculty Of Science Kobe University

• Tanaka Takaaki

  Department Of Bioscience & Biotechnology Faculty Of Engineering Okayama University

• Takahashi Masafumi

  Department of Materials Science and Technology, Niigata University

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