生物质增值的机械化学过程研究进展

IF 2.35
Camilla Maria Cova, Rafael Luque
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引用次数: 16

摘要

与标准的时间和溶剂消耗程序相比,机械辅助工艺为纳米催化活性材料的设计提供了许多环保优势。机械化学显示高重复性,简单,清洁和多功能性,在大多数情况下,避免使用任何溶剂。此外,与传统方法相比,机械辅助程序通常更快、更便宜。由于这些突出的特点,机械化学已经发展成为一种特殊的技术,用于合成新型和先进的催化剂,设计用于广泛的应用。文献报道了大量的工作,表明机械合成程序比传统的溶剂型技术提供了更有前途的途径。本文综述了机械化学辅助合成催化活性材料的最新进展,重点介绍了用于生物质转化的纳米催化剂和生物基催化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Advances in mechanochemical processes for biomass valorization

Advances in mechanochemical processes for biomass valorization

Compared to standard time and solvent consuming procedures, mechanically-assisted processes offer numerous environmentally-friendly advantages for nano-catalytically active materials design. Mechanochemistry displays high reproducibility, simplicity, cleanliness and versatility, avoiding, in most cases, the use of any solvent. Moreover, mechanically-assisted procedures are normally faster and cheaper as compared to conventional processes. Due to these outstanding characteristics, mechanochemistry has evolved as an exceptional technique for the synthesis of novel and advanced catalysts designed for a large range of applications. The literature reports numerous works showing that mechanosynthetic procedures offer more promising paths than traditional solvent-based techniques. This review aims to disclose the latest advances in the mechanochemical assisted synthesis of catalytically active materials, focusing on nanocatalysts designed for biomass conversion and on bio-based catalysts.

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