木质素衍生的可持续纳米平台：一种高效去除染料的多功能解决方案。

Lignin-Derived Sustainable Nano-Platforms: A Multifunctional Solution for an Efficient Dye Removal.

作者信息

Rahimihaghighi Maryam, Gigli Matteo, Ficca Valerio C A, Placidi Ernesto, Sgarzi Massimo, Crestini Claudia

机构信息

Department of Molecular Sciences and Nanosystems, Università Ca' Foscari Venezia, Via Torino 155, 30172, Venice Mestre, Italy.

Department of Architecture and Industrial Design, Università degli Studi della Campania "Luigi Vanvitelli", Via San Lorenzo, Abbazia di San Lorenzo, 81031, Aversa, Italy.

出版信息

ChemSusChem. 2024 Dec 20;17(24):e202400841. doi: 10.1002/cssc.202400841. Epub 2024 Aug 27.

DOI:10.1002/cssc.202400841

PMID:38899482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11660739/

Abstract

In contrast to conventional non-biobased adsorbents, lignin emerges as a cost-effective and environmentally benign alternative for water treatment. This study identifies unexpected and unpredicted multifunctional properties of lignin nanoparticles (LNPs). LNPs, which are prepared by simple physical processes, demonstrated for the first time to behave as multifunctional materials able to adsorb and photodegrade methylene blue (MB) in aqueous medium upon UV irradiation. Furthermore, the synthetic approach adopted to synthesize LNPs - and therefore their surface properties - strongly affects their performances. More specifically, LNPs obtained by solvent-antisolvent nanoprecipitation (SLNPs) show the highest MB adsorption properties (98 % removal), reaching a maximum adsorption capacity of 43.0 mg g, and the fastest adsorption kinetics with respect to other lignin-based adsorbents. Conversely, hydrotropic LNPs (HLNPs) exhibit exceptional photocatalytic activity, resulting in 98 % MB degradation over 6 hours of UV irradiation, combined with the ability to be easily recycled and reused. The present effort paves the way for the use of LNPs as efficient multifunctional materials able to perform concurrently adsorption and photocatalytic degradation of dye pollutants, toward the creation of a sustainable biobased water treatment platform.

摘要

与传统的非生物基吸附剂相比，木质素成为一种经济高效且环境友好的水处理替代材料。本研究发现了木质素纳米颗粒（LNP）出人意料和未被预测的多功能特性。通过简单物理过程制备的LNP首次被证明是一种多功能材料，能够在紫外线照射下对水介质中的亚甲基蓝（MB）进行吸附和光降解。此外，用于合成LNP的合成方法——以及由此产生的表面性质——强烈影响其性能。更具体地说，通过溶剂-反溶剂纳米沉淀法获得的LNP（SLNP）表现出最高的MB吸附性能（去除率98%），最大吸附容量达到43.0 mg/g，并且相对于其他木质素基吸附剂具有最快的吸附动力学。相反，促水溶LNP（HLNP）表现出卓越的光催化活性，在6小时的紫外线照射下可使MB降解98%，同时具有易于回收和再利用的能力。目前的研究为将LNP用作能够同时对染料污染物进行吸附和光催化降解的高效多功能材料铺平了道路，朝着创建一个可持续的生物基水处理平台迈进。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39c2/11660739/097a5dd2a2bf/CSSC-17-e202400841-g004.jpg

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木质素衍生的可持续纳米平台：一种高效去除染料的多功能解决方案。

Lignin-Derived Sustainable Nano-Platforms: A Multifunctional Solution for an Efficient Dye Removal.

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