通过原位合成制备 BiOBr/纤维素复合材料及其在可见光下的增强光催化活性。

Facile preparation of BiOBr/cellulose composites by in situ synthesis and its enhanced photocatalytic activity under visible-light.

机构信息

Key Laboratory of Processing and Testing Technology of Glass & Functional Ceramics of Shandong Province, Qilu University of Technology (Shandong Academy of Sciences), Jinan, 250353, PR China.

出版信息

Carbohydr Polym. 2018 Sep 1;195:393-400. doi: 10.1016/j.carbpol.2018.04.092. Epub 2018 Apr 26.

DOI:10.1016/j.carbpol.2018.04.092

PMID:29804992

Abstract

BiOBr/regenerated cellulose composites photocatalysts were easily prepared by in situ synthesis method with the utilization of pulp board as the cellulose source in TEMPO (2, 2, 6, 6-tetramethylpiperidine-1-oxyl radical)-Mediated Oxidation. The physicochemical characteristic of the BiOBr/cellulose composites are systematically indicated by SEM, XRD, FT-IR, TG, BET, XPS, UV-vis, TOC, HPLC and EIS. The results indicated that the BiOBr nanoparticles were incorporated into cellulose surface, and there was a strong interaction between the hydroxyl groups of regenerated cellulose (RC) and the BiOBr through hydrogen bonding interactions. Under visible light irradiation, the composites showed remarkable photocatalytic activity for degradation of Rhodamine B (C = 25 mg L) with degradation percentage of 99% within only 50 min irradiation and 88.6% after four recycles. This study promotes that the BiOBr/cellulose composites can act as a new and green portable photocatalyst in the field of wastewater treatment.

摘要

BiOBr/再生纤维素复合材料光催化剂通过原位合成方法，利用纸浆板作为纤维素源，在 TEMPO（2,2,6,6-四甲基哌啶-1-氧自由基）介导的氧化中制备。BiOBr/纤维素复合材料的物理化学特性通过 SEM、XRD、FT-IR、TG、BET、XPS、UV-vis、TOC、HPLC 和 EIS 进行了系统的研究。结果表明，BiOBr 纳米颗粒被掺入纤维素表面，并且通过氢键相互作用，再生纤维素（RC）的羟基与 BiOBr 之间存在强烈的相互作用。在可见光照射下，复合材料对 Rhodamine B（C=25mg/L）的降解表现出显著的光催化活性，仅在 50min 照射下降解率达到 99%，经过四次循环后降解率达到 88.6%。本研究表明，BiOBr/纤维素复合材料可用作废水处理领域的新型绿色便携式光催化剂。

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通过原位合成制备 BiOBr/纤维素复合材料及其在可见光下的增强光催化活性。

Facile preparation of BiOBr/cellulose composites by in situ synthesis and its enhanced photocatalytic activity under visible-light.

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