新合成的 n-n-AgBi3S5-Bi2S3 光催化剂在自然光照射下从水体系中去除罗丹明-B 的光催化效率的展开

Anupam Chowdhury, Nandagopal Hudait, Kamal Kanti Bera, Ambikesh Mahapatra and Swapan Kumar Bhattacharya*, 
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引用次数: 0

摘要

以乙二醇为介质,采用简便的一锅热化学法(90 °C)合成了 n-AgBi3S5、n-Bi2S3 和 n-n-AgBi3S5-Bi2S3 纳米复合材料,无需进一步煅烧。该纳米复合材料在自然日光照射下对降解水溶液中的污染染料罗丹明-B(Rh-B)具有显著的协同光催化活性。通过各种光谱、衍射(XRD)和显微技术对合成的单斜 AgBi3S5、正交 Bi2S3 及其纳米复合材料进行了鉴定和表征。紫外-可见光谱研究显示,合成的 Bi2S3 和 AgBi3S5 对可见光有明显的吸收,带隙/eV 分别为 2.8 和 1.9。在 pH 值为 3 的条件下,0.7 g/L 的 AgBi3S5-Bi2S3 纳米复合材料在 25 分钟内实现了光谱评估的 Rh-B 最大降解率(99.9%)和相关的高速常数(0.059 min-1)。对降解产物的研究表明,Rh-B 既有脱乙基作用,也有断环作用,这表明它和催化剂同时吸收了阳光。纳米复合材料的高效率和协同效应可能是由于 Z 方案/S 方案电荷分离造成的。第 5 次使用的催化剂 AgBi3S5-Bi2S3 的光催化活性保持率为 95%,这表明它在反应过程中通过自动表面改良发挥了优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unfolding Photocatalytic Efficiency of a Newly One-Pot Synthesized n-n-AgBi3S5-Bi2S3 Photocatalyst for Removal of Rhodamine-B from Aqueous Systems under Natural Light Illumination

Unfolding Photocatalytic Efficiency of a Newly One-Pot Synthesized n-n-AgBi3S5-Bi2S3 Photocatalyst for Removal of Rhodamine-B from Aqueous Systems under Natural Light Illumination

Nanoparticles of n-AgBi3S5, n-Bi2S3, and n-n-AgBi3S5-Bi2S3 nanocomposite were synthesized by a facile one-pot hot chemical (90 °C) method using ethylene glycol as a medium without further calcination. The nanocomposite on exposure to natural sunlight exhibits significant and synergistic photocatalytic activity towards degradation of pollutant dye Rhodamine-B (Rh-B) in aqueous solution. The as-synthesized monoclinic AgBi3S5, orthorhombic Bi2S3, and their nanocomposite were identified and characterized by various spectroscopic, diffraction (XRD), and microscopic techniques. The UV-visible spectroscopic study reveals significant absorption of visible light and narrow band gaps/eV: 2.8 and 1.9 for synthesized Bi2S3 and AgBi3S5 respectively. The spectroscopically evaluated maximum % of degradation of Rh-B (99.9) and related high-rate constant (0.059 min–1) were achieved within 25 min with 0.7 g/L AgBi3S5-Bi2S3 nanocomposite at pH 3. The radical trapping experiments reveal that both O2 and OH are almost equally involved in the degradation, while hole, h+ is the main initiator of the degradation as usual. Studies of the products of degradation reveal both de-ethylation and ring breaking of Rh-B, indicating simultaneous absorption of sunlight by it and the catalyst. The very high efficiency and synergistic effect of the nanocomposite might be due to either/both Z scheme/S scheme charge separation. The 95% retention of the photocatalytic activity by the 5th time used catalyst AgBi3S5-Bi2S3 signifies its superiority by auto surface improvement during a reaction.

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