期刊
POLYMER DEGRADATION AND STABILITY
卷 217, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.polymdegradstab.2023.110538
关键词
Biodegradation; Soil; Respirometry; Microfibrillated cellulose; Lupin protein; PLA
The biodegradation of polymers can be determined by measuring the CO2 evolution from the biodegradation medium. In this study, a reliable method using a respirometric system was developed to investigate the biodegradation of cellulose, polylactic acid (PLA), and lupin protein isolate (LPI). Results showed that LPI-based films had the highest biodegradation rate, followed by regenerated cellulose fibers. PLA samples with powder morphology were the only ones that underwent biological degradation, but the addition of microfibrillated cellulose greatly increased the biodegradation rate of PLA films. Scanning electron microscopy and gel permeation chromatography analysis were conducted to examine the samples before and after biodegradation.
The biodegradation of polymers can be determined by measuring the CO2 evolution from the biodegradation medium, for example soil. In this work, the biological degradation of cellulose (powder and fibers), polylactic acid (PLA, powder and films), a combination of both and lupin protein isolate (LPI, films) was investigated. Therefore, a reliable method using a respirometric system needed to be developed. The soil to sample ratio, the system boundaries concerning the maximum CO2 uptake and O-2 consumption in addition to the change in electrical conductivity of the KOH absorbant solution caused by CO2 uptake were investigated. LPI-based films showed the highest biodegradation in %, followed by regenerated cellulose fibers (RC fibers). In case of PLA only the samples with powder morphology were biological degraded. The degradation of PLA films was highly increased to 68 % by addition of microfibrillated cellulose (MFC). The samples were analyzed before and after biodegradation using scanning electron microscopy (SEM) and gel permeation chromatography (SEC). The developed method was successful to validate the degree of biodegradation for a large variety of biogenic polymers and can be generally applied.
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