Heterogeneous flow chemistry through bamboo-based microfluidic reactors

Tetrahedron Green Chem Pub Date : 2023-08-12 DOI:10.1016/j.tgchem.2023.100022
Omar Ginoble Pandoli
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Abstract

The rapid development of flow chemistry and its related microfluid technology has accelerated the innovation in material science and the research into alternative, environmentally, and cost-effective microfabrication procedures. This article reviews the latest advances in bamboo-based microfluidic devices, highlighting the heterogeneous catalysis in flow mode through the three-dimensional (3D) structures of the plant's vascular bundles. Different strategies for immobilizing catalysts (metal and enzymes) and the design of the lignocellulosic-based flow reactor are presented.

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竹材基微流控反应器的非均相流动化学研究
流动化学及其相关微流体技术的快速发展加速了材料科学的创新和对替代性、环保性和成本效益高的微制造程序的研究。本文综述了基于竹子的微流体装置的最新进展,重点介绍了通过植物维管束的三维(3D)结构在流动模式下进行的多相催化。介绍了固定催化剂(金属和酶)的不同策略以及基于木质纤维素的流动反应器的设计。
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Tetrahedron Green Chem
Tetrahedron Green Chem
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