利用tio2光催化降解没食子酸：动力学、优化和催化剂再生

IF 2.5 4区化学 Q2 Engineering

Chemical Papers Pub Date : 2025-07-11 DOI:10.1007/s11696-025-04233-y

Hanaa Khoussa, Abdelkader Benderrag, Khalil Abdelhamid Benabbou, Abdelghani Bouchama, Aicha Khenifi

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引用次数: 0

摘要

研究了自然光照下tio2光催化降解没食子酸（GA）的方法。在没有光的情况下进行的初始吸附试验确定在启动光催化之前需要30分钟的预吸附阶段。光照对GA的降解作用最小，但TiO2的存在显著加速了这一过程，在120分钟内达到96%的降解率。确定最佳tio2浓度为1 g/L。还研究了pH的影响，没食子酸的自然pH（4.6）产生最高的降解效率。在初始GA浓度为0.1和0.2 mM时，降解分别在60和120分钟内几乎完成，而更高的浓度对性能产生不利影响。降解过程符合准一级动力学，相关系数高（R2 > 0.95）。当没食子酸的初始浓度为0.2 mM时，反应的代表性速率常数（kobs）为0.03 min - 1。催化剂再生研究表明，在5个循环后，简单水洗的催化效率仍保持74%，优于盐酸和氢氧化钠处理。XRD和SEM分析证实了再生后tio_2结构完整性的保存。图形抽象

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Solar-driven photocatalytic degradation of gallic acid using TiO₂: kinetics, optimization, and catalyst regeneration

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Solar-driven photocatalytic degradation of gallic acid using TiO₂: kinetics, optimization, and catalyst regeneration

This study explores the photocatalytic degradation of gallic acid (GA) using TiO₂ under natural sunlight. Initial adsorption tests conducted in the absence of light determined that a 30-min pre-adsorption phase was necessary prior to initiating photocatalysis. Sunlight alone demonstrated minimal degradation of GA, but the presence of TiO₂ significantly accelerated the process, achieving a 96% degradation rate within 120 min. The optimal TiO₂ concentration was identified as 1 g/L. The influence of pH was also investigated, with gallic acid’s natural pH (4.6) yielding the highest degradation efficiency. At initial GA concentrations of 0.1 and 0.2 mM, degradation was nearly complete within 60 and 120 min, respectively, while higher concentrations adversely impacted performance. The degradation process followed pseudo-first-order kinetics, with high correlation coefficients (R² > 0.95). A representative rate constant (k_obs) of 0.03 min⁻¹ was obtained at initial gallic acid concentration of 0.2 mM. Catalyst regeneration studies revealed that simple water washing retained 74% of catalytic efficiency after five cycles, outperforming HCl and NaOH treatments. XRD and SEM analyses confirmed the preservation of TiO₂’s structural integrity post-regeneration.

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来源期刊

Chemical Papers Chemical Engineering-General Chemical Engineering

CiteScore

3.30

自引率

4.50%

发文量

590

期刊介绍： Chemical Papers is a peer-reviewed, international journal devoted to basic and applied chemical research. It has a broad scope covering the chemical sciences, but favors interdisciplinary research and studies that bring chemistry together with other disciplines.