Functionalising Pinus roxburghii Biochar with Mg–Fe-LDH for Effective Organic Pollutant Mitigation in Wastewater

IF 2.3 4区 化学 Q3 CHEMISTRY, PHYSICAL Catalysis Letters Pub Date : 2024-11-14 DOI:10.1007/s10562-024-04875-9
Nancy Jaswal, Nipjyoti Sarma, Purnima Justa, Amit Kumar Sharma, Pragati Kumar, Pramod Kumar
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Abstract

Biochar, a carbon-enriched material, has been introduced as robust sorbent for the removal of wide array of pollutants. Recently, Biochar functionalized with metals or metal hydroxide composites has gained attention as low-cost, sustainable materials. Layered double hydroxides (LDHs) and biochar interact synergistically to produce composites with significantly improved specific surface area, structural heterogenicity, surface functional groups, stability and adsorptive properties. In this study, composites constructed out on Mg–Fe LDHs supported by biochar (BC) derived from Pinus roxburghii (chir pine) waste are synthesised. Pinus roxburghii biochar (PR-BC-500) was produced at 500 ℃ under inert conditions and used to synthesize biochar incorporated LDH nanostructures (PR-LDH-500) hydrothermally. Nanocomposites were characterized by XRD, FTIR, BET, Raman, Zeta potential, UV, PL, SEM and EDS techniques. The SEM results display the ideal distribution of LDH particles on the surface of biochar, increasing surface area and occupying pores, confirming composite formation. Photocatalytic outcomes demonstrated that the BC particles integrated into the LDH structure demonstrated strong photocatalytic performance as prepared. 93.4% of Methylene Blue was degraded through photocatalytic degradation in the active participation of PR-LDH-500 nanocomposites, whereas PR-BC-500 degraded only 76.8%. The optimal conditions for methylene blue degradation using PR-LDH-500 and PR-BC-500 photocatalysts were achieved at a catalyst dosage of 50 mg, with a maximum degradation of 94% at pH 12 after 240 min of UV irradiation. According to the results, PR-LDH-500 has outstanding feasibility as a durable and inexpensive adsorbent for the purifying dye-tainted aqueous ecosystems.

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用 Mg-Fe-LDH 对罗布麻生物炭进行功能化处理,以有效缓解废水中的有机污染物
生物炭是一种富碳材料,已被用作去除多种污染物的强效吸附剂。最近,与金属或金属氢氧化物复合材料功能化的生物炭作为低成本、可持续的材料受到了关注。层状双氢氧化物(LDHs)和生物炭通过协同作用产生的复合材料在比表面积、结构异质性、表面官能团、稳定性和吸附性方面都有显著改善。在本研究中,我们合成了以 Mg-Fe LDHs 为基础、以从赤松(Pinus roxburghii)废料中提取的生物炭(BC)为支撑的复合材料。罗布松生物炭(PR-BC-500)是在 500 ℃ 的惰性条件下生产的,用于水热法合成生物炭掺杂的 LDH 纳米结构(PR-LDH-500)。纳米复合材料通过 XRD、傅立叶变换红外光谱、BET、拉曼光谱、Zeta 电位、紫外光谱、聚光光谱、扫描电镜和 EDS 技术进行表征。扫描电镜结果显示,LDH 颗粒在生物炭表面的分布非常理想,增加了表面积并占据了孔隙,证实了复合材料的形成。光催化结果表明,与 LDH 结构融为一体的 BC 颗粒具有很强的光催化性能。在 PR-LDH-500 纳米复合材料的积极参与下,93.4% 的亚甲基蓝通过光催化降解,而 PR-BC-500 的降解率仅为 76.8%。使用 PR-LDH-500 和 PR-BC-500 光催化剂降解亚甲基蓝的最佳条件是催化剂用量为 50 毫克,在紫外线照射 240 分钟后,pH 值为 12 时的最大降解率为 94%。结果表明,PR-LDH-500 作为一种耐用且廉价的吸附剂,在净化受染料污染的水生态系统方面具有突出的可行性。 图文摘要
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来源期刊
Catalysis Letters
Catalysis Letters 化学-物理化学
CiteScore
5.70
自引率
3.60%
发文量
327
审稿时长
1 months
期刊介绍: Catalysis Letters aim is the rapid publication of outstanding and high-impact original research articles in catalysis. The scope of the journal covers a broad range of topics in all fields of both applied and theoretical catalysis, including heterogeneous, homogeneous and biocatalysis. The high-quality original research articles published in Catalysis Letters are subject to rigorous peer review. Accepted papers are published online first and subsequently in print issues. All contributions must include a graphical abstract. Manuscripts should be written in English and the responsibility lies with the authors to ensure that they are grammatically and linguistically correct. Authors for whom English is not the working language are encouraged to consider using a professional language-editing service before submitting their manuscripts.
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