光催化
材料科学
碳化
纳米技术
水热碳化
碳纤维
热液循环
生物量(生态学)
Boosting(机器学习)
化学工程
电子受体
活性炭
纳米复合材料
催化作用
可持续设计
作者
Peng Zhang,Zhen Shen,Lixia Jia,Jieshan Qiu
出处
期刊:Small
[Wiley]
日期:2025-12-26
卷期号:22 (8): e12210-e12210
被引量:1
标识
DOI:10.1002/smll.202512210
摘要
acceptor to fabricate highly active photocatalysts on a large scale. However, biomass materials exhibit significant diversity in their chemical structures and physical properties, which critically determines the morphology, composition, and physicochemical performance of the resulting BDC products. Therefore, a variety of strategies are developed to prepare highly photoactive BDC-based photocatalysts. This review summarizes a large amount of related works have been reported in the last two decades and divides the synthesis methodology into the bottom-up and top-down methods. In particular, the bottom-up method primarily employs hydrosoluble carbohydrates to synthesize four hydrothermal carbonization (HTC) composites or HTC-derived photocatalysts. As for the top-down method, the existing natural biomass precursors are utilized to fabricate three biochar-based photocatalysts. Consequently, this review comprehensively describes the designing mentality, preparation approach, architectural feature, photocatalytic application, and photocatalytic mechanism of different BDC-based materials. That will stimulate to design and develop more highly active BDC-based photocatalysts for the potential practical applications in the future.
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