茯苓纳米材料的合成与表征及其在生物塑料中的应用:初步研究

IF 0.2 Q4 AGRONOMY
agriTECH Pub Date : 2023-11-30 DOI:10.22146/agritech.77983
E. G. Fadhallah, Lathifa Indraningtyas, Teguh Setiawan, Iqbal Firdaus, Andri Pratama
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引用次数: 0

摘要

人口增长和人类活动造成的塑料废物增加可能会对环境造成负面影响。大量累积造成了环境污染,因为塑料对微生物降解的抵御能力是一个重大挑战。此外,利用生物塑料作为可生物降解的替代品,是减少对合成塑料依赖的可行策略。淀粉因其可再生性、成本效益、无毒性和易降解性等一系列优点,成为制造生物塑料的主要成分。纳米材料在生物塑料中的应用被认为会加速生物塑料的降解。 因此,本研究旨在确定茯苓(Amorphophallus muelleri)和生物塑料中纳米材料的特性。该方法包括通过指定的水-porang比例(2.5:1)提取porang纳米材料,然后进行超声处理(50瓦,75分钟)。生物塑料的配方包括玉米淀粉、porang 纳米材料和甘油的混合。此外,茯苓纳米材料的化学特性包括淀粉含量 41.41%、直链淀粉 13.49%、灰分 7.87%、草酸钙 2.52%。茯苓纳米材料的粒径分布在 603.7-952.1 nm 之间,平均粒径为 722.6 nm,晶体结构中含有草酸钙。生物塑料呈褐色薄层状,厚度为 0.23-0.39 毫米。这项研究有望为了解茯苓纳米材料的基本特征及其在解决合成塑料造成的环境问题方面的潜在应用提供新的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and Characterization of Nanomaterials from Porang (Amorphophallus muelleri) and Its Application for Bioplastic: Preliminary
The increase in plastic waste caused by population growth and human activities is capable of leading to negative consequences for the environment. The substantial accumulation contributes to environmental pollution since its resilience against microbial degradation poses a significant challenge. Furthermore, the utilization of bioplastics as a biodegradable substitute presents a viable strategy for diminishing reliance on synthetic plastics. Starch emerges as a prevalent primary component in the fabrication of bioplastics, owing to its array of merits including renewability, cost-effectiveness, non-toxicity, and facile degradability. The application of nanomaterials to bioplastics is believed to accelerate the degradation of bioplastics.  Therefore, this study aimed to identify the characteristics of nanomaterial from porang (Amorphophallus muelleri) and bioplastic. The method included the extraction of porang nanomaterial through a specified water-to-porang ratio (2.5:1) followed by sonication (50 W, 75 minutes). The formulation of bioplastics involved the amalgamation of corn starch, porang nanomaterial, and glycerol. In addition, the chemical properties of porang nanomaterials included 41.41% starch content, 13.49% amylose, 7.87% ash, and 2.52% calcium oxalate. The particle size of porang nanomaterials was distributed from 603.7-952.1 nm with an average 722.6 nm crystalline structure containing calcium oxalate. The bioplastic had the form of a thin brown layer with a thickness value ranging from 0.23-0.39 mm. This research was expected to provide new information related to the essential characteristics of nanomaterials from porang and its potential application in solving environmental issues caused by synthetic plastics.
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agriTECH
agriTECH AGRONOMY-
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24 weeks
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