Agricultural product-derived carbon for energy, sensing, and environmental applications: A mini-review

IF 0.6 4区生物学 Q4 PLANT SCIENCES

Bangladesh Journal of Plant Taxonomy Pub Date : 2020-12-11 DOI:10.3329/bjpt.v27i2.50686

Syed Shaheen Shah, A. Aziz

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引用次数: 8

Abstract

Carbon is one of the versatile materials used in modern life for human welfare. It has a wide range of applications such as drug delivery, coatings, energy generation and storage, gas separation, water purification, sensor fabrication, and catalysis. Most of the widely used carbon materials are graphene and carbon nanotubes. Nonrenewable precursors (e.g., natural gas), toxic chemicals, and complex synthesis methods are often required for their preparation, limiting their wide practical applications. Besides these, biomass-derived carbons are attractive materials as they can be prepared simply from renewable biomass. However, their practical applications' success partially depends on their properties like size, shape, porosity, and presence of heteroatoms, which can be controlled by selecting the proper type of biomass, activating agent, and preparation method. It is noted that different species of plants have different chemical compositions and textures. This mini-review summarizes our group's recent sophisticated developments in agricultural-bio-waste-derived carbonaceous materials, including nanomaterials for electrocatalytic water splitting, electrochemical sensors, supercapacitors, water splitting, water treatment, gas separation, and enhance oil recovery. This offers valuable insights and essential guidelines towards the future design of agro-waste derived carbonaceous materials in various applications.

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用于能源、传感和环境应用的农产品衍生碳:小型综述

碳是现代生活中用于人类福利的多功能材料之一。它具有广泛的应用，如药物输送、涂料、能源产生和储存、气体分离、水净化、传感器制造和催化。目前应用最广泛的碳材料是石墨烯和碳纳米管。它们的制备通常需要不可再生前体(如天然气)、有毒化学品和复杂的合成方法，限制了它们的广泛实际应用。除此之外，生物质衍生的碳是有吸引力的材料，因为它们可以简单地从可再生生物质中制备。然而，它们的实际应用的成功部分取决于它们的性质，如大小、形状、孔隙度和杂原子的存在，这些可以通过选择适当的生物质类型、活化剂和制备方法来控制。值得注意的是，不同种类的植物具有不同的化学成分和质地。这篇小型综述总结了我们小组最近在农业生物废物衍生碳质材料方面的先进进展，包括用于电催化水分解、电化学传感器、超级电容器、水分解、水处理、气体分离和提高石油采收率的纳米材料。这为未来在各种应用中设计农业废物衍生的碳质材料提供了宝贵的见解和重要的指导方针。

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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来源期刊

Bangladesh Journal of Plant Taxonomy 生物-植物科学

CiteScore

0.42

自引率

44.40%

发文量

审稿时长

6 months

期刊介绍： Bangladesh is a humid, subtropical country favouring luxuriant growth of microorganisms, fungi and plants from algae to angiosperms with rich diversity. She has the largest mangrove forest of the world in addition to diverse hilly and wetland habitats. More than a century back, foreign explorers endeavoured several floral expeditions, but little was done for non-vasculars and pteridophytes. In recent times, Bangladesh National Herbarium has been carrying out taxonomic research in Bangladesh along with few other national institutes (e.g. Department of Botany of public universities and Bangladesh Forest Research Institute).