Environmental pollution produced due to direct and untreated release of toxic organic pollutants such as dyes from the textile industries is not only effect the human life but also contaminates the ecosystem through different transferal modes. Green nanomaterials synthesized by using biological reducing agents offer sustainable, economically viable, facile, rapid and eco-friendly approach with photocatalytic degradation efficiencies >90% for organic dyes over the other traditional technologies. Current review has for the first time comprehensively abridged the suitability of green nanoparticles over chemogenic nanoparticles, the remediative role of these biogenic nanoparticles with major emphasis on the recent progressions in the photocatalysis of different toxic dyes and pollutants. Unlike physicochemically processed nanoparticles, biogenic nanoparticles has profound contribution to the sustainable development goals due to their cleaner and economical synthesis in addition to their detoxifying role. Meticulous review of the publications are strongly suggestive of the adoptability of biogenic nanoparticles at an implementation scale for their auspicious remediative role in addition to facile fabrication, natural reducing agents based synthetic mode, toxicity free and sustainable nature. However, the studies are also indicative of the need for utilization of biogenic synthesis at practical scale to derive maximum sustainability and ecological benefits.

中文翻译：

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通过使用具有增强的光催化潜力的仿生生态材料来实现可持续性巩固：新兴进展

纺织工业中直接和未经处理的有毒有机污染物（例如染料）的释放造成的环境污染不仅影响人类生活，而且通过不同的转移方式污染生态系统。通过使用生物还原剂合成的绿色纳米材料提供了可持续，经济可行，便捷，快速且环保的方法，与其他传统技术相比，有机染料的光催化降解效率> 90％。当前的综述首次全面缩小了绿色纳米颗粒对化学原性纳米颗粒的适用性，这些生物原性纳米颗粒的修复作用主要侧重于不同毒性染料和污染物的光催化作用的最新进展。与物理化学处理的纳米粒子不同，生物纳米颗粒除具有解毒作用外，还因其更清洁，经济的合成方式，对可持续发展目标做出了重要贡献。对出版物的细致回顾强烈暗示了生物基纳米颗粒除了易于制造，基于天然还原剂的合成模式，无毒和可持续的特性外，还具有吉利的修复作用，因此在实施规模上具有可采用性。但是，这些研究也表明需要在实际规模上利用生物合成来获得最大的可持续性和生态效益。对出版物的细致回顾强烈暗示了生物基纳米颗粒除了易于制造，基于天然还原剂的合成模式，无毒和可持续的特性外，还具有吉利的修复作用，因此在实施规模上具有可采用性。但是，这些研究也表明需要在实际规模上利用生物合成来获得最大的可持续性和生态效益。对出版物的细致回顾强烈暗示了生物基纳米颗粒除了易于制造，基于天然还原剂的合成模式，无毒和可持续的特性外，还具有吉利的修复作用，因此在实施规模上具有可采用性。但是，这些研究也表明需要在实际规模上利用生物合成来获得最大的可持续性和生态效益。