Design and Development of Food Waste Inspired Electrochemical Platform for Various Applications

Mansi Gandhi
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Abstract

Plants have a remarkable position among renewable materials because of their abundance, and nearly thousands of tons are consumed worldwide every day. Most unexploited plants and agricultural waste can be a real potential resource system. With increasing environmental awareness and the growing importance of friendly agricultural waste, crops and fruit waste can be used for efficient conversion into bio-fertilizers, biocarbons, bio-polymers, biosensors and bio-fibers. Global challenges based on limited natural resources and fossil energy reserves simulated keen interest in the development of various electrochemical systems inspired by food and plant scraps, which aid in curbing pollution. The successful adoption of a renewable energy roadmap is dependent on the availability of a cheaper means of storage. In order to cut down the cost of storage units, an improvement on energy storage devices having better stability, power, and energy density with low post-maintenance cost is the vital key. Although food and plant scraps have a huge need for energy storage, it has been extended to various sensing platform fabrications, which are eco-friendly and comparable to organic molecule-based sensors. Current research proclivity has witnessed a huge surge in the development of phyto-chemical-based sensors. The state-of-the-art progresses on the subsequent use of plant-waste systems as nano-engineered electrochemical platforms for numerous environmental science and renewable energy applications. Moreover, the relevant rationale behind the use of waste in a well-developed, sustainable future device is also presented in this review.
基于食物垃圾的多种应用电化学平台的设计与开发
植物因其丰富而在可再生材料中占有显著地位,全世界每天消耗近数千吨。大多数未开发利用的植物和农业废弃物可以成为真正潜在的资源系统。随着环保意识的增强和友好农业废弃物的重要性日益提高,农作物和水果废弃物可用于有效转化为生物肥料、生物碳、生物聚合物、生物传感器和生物纤维。基于有限的自然资源和化石能源储备的全球挑战激发了人们对开发各种电化学系统的浓厚兴趣,这些系统由食物和植物废料激发,有助于遏制污染。可再生能源路线图的成功采用取决于是否有更便宜的存储方式。提高储能设备的稳定性、功率和能量密度,降低后期维护成本,是降低储能设备成本的关键。虽然食物和植物废料对能量储存有巨大的需求,但它已经扩展到各种传感平台制造,这些平台是环保的,可与有机分子传感器相媲美。目前的研究趋势见证了基于植物化学的传感器发展的巨大浪潮。将植物废物系统作为纳米工程电化学平台用于众多环境科学和可再生能源应用的最新进展。此外,本综述还介绍了在一个发达的、可持续的未来装置中使用废物的相关原理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
6.30
自引率
0.00%
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