The industry is looking for new materials which can respond to specific applications that exclusively advance materials can provide. In this context, nanoparticles and nanocomposites opened an interesting method for designing specific properties which can be modulated according to the requirements. The preparation of biomolecules supported trimetallic nanoparticles and some other derives is a good example of the complex systems that can be designed for getting exclusive properties. This study is based on the preparation of new cyclodextrin supported Fe/La/Zn trimetallic nanocomposite by the microemulsion technique. Photocatalytic degradation of amoxicillin was performed using cyclodextrin-Fe/La/Zn. 78% of amoxicillin photodegradation along 4 hours of photoirradiation was achieved. Finally, the catalytic nature of new material was explored for oxidation and esterification reactions. The present study revealed that this advanced multifunctional nanomaterial can be successfully employed for environmental remediation and catalytic activities.

中文翻译：

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三金属@环糊精纳米复合材料：降解阿莫西林的光催化剂和酯化反应的催化剂

该行业正在寻找新材料，以应对先进材料可以提供的特定应用。在这种情况下，纳米颗粒和纳米复合材料开辟了一种有趣的方法来设计可以根据要求调节的特定性能。生物分子支持的三金属纳米粒子和一些其他衍生物的制备是复杂系统的一个很好的例子，可以设计以获得独特的特性。本研究基于通过微乳液技术制备新型环糊精负载的 Fe/La/Zn 三金属纳米复合材料。使用环糊精-Fe/La/Zn 进行阿莫西林的光催化降解。在 4 小时的光照射下，阿莫西林的光降解率达到 78%。最后，探索了新材料对氧化和酯化反应的催化性质。本研究表明，这种先进的多功能纳米材料可成功用于环境修复和催化活性。