环境相容性聚（乙烯醇）/香蕉皮纳米晶体/膨润土基复合材料薄膜：纳米填料对生物降解行为的影响

Q3 Materials Science

Current Nanomaterials Pub Date : 2024-04-05 DOI:10.2174/0124054615282618240329063241

Deepak Kohli, D. S. Panwar, Balraj Tudu, Jigesh Mehta, Vishal Shah, Jigna Patel, Bital Patel, Ankit D. Oza, Ravi Gupta, Laxman Singh

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引用次数: 0

摘要

本研究显示了膨润土（BC）对聚乙烯醇（PVA）/香蕉皮纳米晶体（BPNC）复合薄膜生物降解行为的影响。如今，由可生物降解或部分可生物降解聚合物增强天然填料制成的复合薄膜开始受到关注，因为它们被认为是环境友好型生物材料之一。生物降解研究表明，与自然土壤埋藏法相比，复合薄膜在细菌环境中更容易降解。生物降解研究采用土壤埋藏法和细菌降解法进行。与 PVA/BPNC 复合薄膜相比，PVA/BPNC/BC 复合薄膜的重量损失（%）较少，这是因为 BC 具有稳定微生物的作用，可防止生物降解。

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Environmentally Compatible Poly (Vinyl Alcohol)/Banana Peel Nano Crystals/Bentonite Clay-based Composites Films: Influence of Nano Filler on Biodegradation Behavior

The present work shows the effect of Bentonite Clay (BC) on the biodegradation behavior of Poly Vinyl Alcohol (PVA)/Banana Peel Nano Crystals (BPNC) composite films. Nowadays, composite films manufactured from biodegradable or partially biodegradable polymers reinforced natural fillers start to gain attention because they are considered as one of the environmentally friendly biomaterials Biodegradation studies were conducted using soil burial and bacterial degradation method. The prepared composite films were characterized by scanning electron microscopy. Biodegradation studies reported that the composite films were more degradable in bacterial environment as compared to natural soil burial. The addition of Bentonite Clay (BC) had negative effect on degradation rate of composite films. Biodegradation studies were conducted using soil burial and bacterial degradation method. The prepared composite films were characterized by scanning electron microscopy. PVA/BPNC/BC composite film showed less weight loss (%) as compared to PVA/BPNC composite films because BC had stabilizing effect against the microbial attack which prevents biodegradation.

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来源期刊

Current Nanomaterials Materials Science-Materials Science (miscellaneous)

CiteScore

1.60

自引率

0.00%

发文量