Highly Active Agro-Waste-Extracted Cellulose-Supported CuInS2 Nanocomposite for Visible-Light-Induced Photocatalysis

Neha Tavker; Umesh Kumar Gaur; Manu Sharma

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Highly Active Agro-Waste-Extracted Cellulose-Supported CuInS2 Nanocomposite for Visible-Light-Induced Photocatalysis

机译：高活性农业废料提取纤维素支持的CuInS2纳米复合材料，用于可见光诱导的光催化

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Agro-waste-extracted cellulose-supported CuInS2 nanocomposites were hydrothermally synthesized with significant photocatalytic activity under the influence of cellulose as a polymeric natural support that offers delay in electron–hole life. Delayed recombination process of electrons and holes was perceived by parting of cellulose as a barrier or edge during photochemical reaction, which overall enhances the lifetime of photocatalyst. The photodegradation efficiency over five consecutive cycles along with scavenging studies have been examined for RhB dye under visible light. The boosted photodegradation rate was observed at an optimum amount of cellulose (200 mg), which is ～10 times higher than pristine CuInS2.

机译：在纤维素的作用下，水热法合成了由农业废物提取的纤维素负载的CuInS2纳米复合材料，该复合材料具有显着的光催化活性，是一种聚合的天然载体，可延缓电子空穴的寿命。通过在光化学反应过程中将纤维素分开作为屏障或边缘，可以感觉到电子和空穴的延迟复合过程，这总体上提高了光催化剂的寿命。已经在可见光下检查了RhB染料在五个连续循环中的光降解效率以及清除研究。在最适量的纤维素（200毫克）下观察到提高的光降解速率，是原始CuInS2的约10倍。

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《ACS Omega》 |2019年第7期|共8页
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Neha Tavker; Umesh Kumar Gaur; Manu Sharma;
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5. Design and synthesis of ferrocenylmethylphosphines for transition metal catalysis: From highly active cross -coupling catalysts to highly efficient addition reaction catalysts [D] . Lu, Yong 2007

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6. Highly Active Agro-Waste-Extracted Cellulose-SupportedCuInS2 Nanocomposite for Visible-Light-Induced Photocatalysis [O] . Neha Tavker, Umesh Kumar Gaur, Manu Sharma, 2019

机译：高度活性的农业废料提取纤维素支持CuInS2纳米复合材料用于可见光诱导的光催化
7. Highly Active Agro-Waste-Extracted Cellulose-Supported CuInS2 Nanocomposite for Visible-Light-Induced Photocatalysis [O] . -1

机译：高活性的农业废物提取的纤维素负载的Cuins2纳米复合物用于可见光诱导的光催化

Highly Active Agro-Waste-Extracted Cellulose-Supported CuInS2 Nanocomposite for Visible-Light-Induced Photocatalysis

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