Recent advancements on the sustainable biochar based semiconducting materials for photocatalytic applications: A state of the art review

生物炭 光催化 可再生能源 纳米技术 材料科学 化石燃料 环境科学 废物管理 催化作用 化学 工程类 热解 生物化学 电气工程
作者
P. Bhavani,Murid Hussain,Young‐Kwon Park
出处
期刊:Journal of Cleaner Production [Elsevier BV]
卷期号:330: 129899-129899 被引量:117
标识
DOI:10.1016/j.jclepro.2021.129899
摘要

Renewable and sustainable energy production is essential for future technological requirements, owing to the ever-increasing environmental pollution caused by the use of non-renewable fossil fuels. The conversion of abundant solar energy to solar fuels by photocatalysis has been suggested as an adequate and alternative route to address the aforementioned issue. A wide range of catalysts have been studied, but their low photocatalytic efficiency due to rapid electron-hole recombination (e.g., C3N4) and high cost (e.g., Pt) have limited their commercialization. There is an urgent need to develop economically/eco-friendly, highly efficient, and robust catalysts for enhanced photocatalysis to tackle the energy crisis and environmental issues. Semiconductor-based catalysts are commonly used as excellent compound materials for photocatalytic reaction applications because of their tunable energy band edge potential, abundance, and less poisonous characteristics. On the other hand, these have limitations due to charge recombination, poor stability, and low conductivity. The current review emphasizes the recent progress on semiconducting materials integrated with carbon (biochar) materials, which are a good choice to minimize these issues. This review summarizes the progress of recent research works for the development of highly active biochar-based composite systems to promote further developments of biochar-modified semiconductors in photocatalytic applications. Biochar has played a pivotal role in photocatalysis because of its fascinating benefits, such as a good support material, enhanced the specific surface area, and numerous surface active sites. These properties have led to high charge shuttling and acting as an electron reservoir, promoting greater charge separation and reducing the energy bandgap. The typical applications of biochar-modified photocatalytic materials are reviewed mainly in photocatalytic hydrogen production and other energy and environmental areas, such as carbon dioxide photo-reduction and the abatement of polluted water/air treatment under solar light irradiation. This review focuses on the recent trends and future prospects for the development of ecofriendly biochar-modified semiconductor photocatalysts.
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