农业蛋白质生物质的酰化反应可产生可生物降解的高吸水性塑料。

Acylation of agricultural protein biomass yields biodegradable superabsorbent plastics.

作者信息

Capezza Antonio J, Muneer Faraz, Prade Thomas, Newson William R, Das Oisik, Lundman Malin, Olsson Richard T, Hedenqvist Mikael S, Johansson Eva

机构信息

Fibre and Polymer Technology Department, KTH Royal Institute of Technology, Stockholm, Sweden.

Plant Breeding Department, SLU Alnarp, Lomma, Sweden.

出版信息

Commun Chem. 2021 Apr 13;4(1):52. doi: 10.1038/s42004-021-00491-5.

DOI:10.1038/s42004-021-00491-5

PMID:36697586

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9814733/

Abstract

Superabsorbent polymers (SAP) are a central component of hygiene and medical products requiring high liquid swelling, but these SAP are commonly derived from petroleum resources. Here, we show that sustainable and biodegradable SAP can be produced by acylation of the agricultural potato protein side-stream (PPC) with a non-toxic dianhydride (EDTAD). Treatment of the PPC yields a material with a water swelling capacity of ca. 2400%, which is ten times greater than the untreated PPC. Acylation was also performed on waste potato fruit juice (PFJ), i.e. before the industrial treatment to precipitate the PPC. The use of PFJ for the acylation implies a saving of 320 000 tons as CO in greenhouse gas emissions per year by avoiding the industrial drying of the PFJ to obtain the PPC. The acylated PPC shows biodegradation and resistance to mould growth. The possibilities to produce a biodegradable SAP from the PPC allows for future fabrication of environment-friendly and disposable daily-care products, e.g. diapers and sanitary pads.

摘要

高吸水性聚合物（SAP）是需要高液体膨胀性的卫生和医疗产品的核心成分，但这些SAP通常来源于石油资源。在此，我们表明可持续且可生物降解的SAP可通过用无毒二酐（EDTAD）对农业马铃薯蛋白副产物（PPC）进行酰化反应来制备。对PPC进行处理可得到一种水膨胀能力约为2400%的材料，这比未处理的PPC大十倍。酰化反应也在废弃马铃薯果汁（PFJ）上进行，即在工业处理以沉淀PPC之前。使用PFJ进行酰化意味着每年通过避免对PFJ进行工业干燥以获得PPC，可减少32万吨二氧化碳的温室气体排放。酰化的PPC显示出生物降解性和抗霉菌生长能力。由PPC生产可生物降解SAP的可能性为未来制造环保型一次性日常护理产品（如尿布和卫生巾）提供了可能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5cb8/9814733/2fd9f29acf7a/42004_2021_491_Fig1_HTML.jpg

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农业蛋白质生物质的酰化反应可产生可生物降解的高吸水性塑料。

Acylation of agricultural protein biomass yields biodegradable superabsorbent plastics.

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