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通过对填充超材料进行紫外线辐射对大量流体进行高效净化的拓扑途径。

Topological Avenue for Efficient Decontamination of Large Volumes of Fluids via UVC Irradiation of Packed Metamaterials.

作者信息

Enaki Nicolae A, Munteanu Ion, Paslari Tatiana, Turcan Marina, Starodub Elena, Bazgan Sergiu, Podoleanu Diana, Ristoscu Carmen, Anghel Sinziana, Badiceanu Maria, Mihailescu Ion N

机构信息

Quantum Optics and Kinetic Processes Laboratory, Institute of Applied Physics, Moldova State University, 5 Academiei Str., MD2028 Chișinău, Moldova.

Laser-Surface-Plasma Interactions Laboratory, National Institute for Lasers, Plasma and Radiation Physics (INFLPR), Magurele, Ilfov, RO-077125 Bucharest, Romania.

出版信息

Materials (Basel). 2023 Jun 24;16(13):4559. doi: 10.3390/ma16134559.

Abstract

Nowadays, metamaterials application enjoys notoriety in fluid decontamination and pathogen annihilation, which are frequently present in polluted fluids (e.g., water, blood, blood plasma, air or other gases). The depollution effect is largely enhanced by UVC irradiation. The novelty of this contribution comes from the significant increase by packing of the total surface of metamaterials in contact with contaminated fluids. Packed metamaterial samples are subjected to UVC irradiation, with expected advantages for implant sterilization and long-term prevention of nosocomial infections over large clinical areas. The novel aspect of the investigation consists of a combination of big and small elements of the metamaterial to optimize the above effects connected with fluids and irradiation. The big elements allow the radiation to penetrate deep inside the fluid, and the small elements optimally disperse this radiation toward deeper regions of the metamaterial. A packing scheme of smaller, in-between large metamaterial spheres and fibres is proposed for promoting enhanced depollution against pathogen agents. It is demonstrated that the total surface of metamaterials in contact with contaminated fluids/surface is significantly increased as a result of packing. This opens, in our opinion, new auspicious perspectives in the construction of novel equipment with high sensibility in the detection and decontamination of microorganisms.

摘要

如今,超材料在流体净化和病原体消灭方面的应用声名远扬,这些在受污染的流体(如水、血液、血浆、空气或其他气体)中经常出现。紫外线C(UVC)照射极大地增强了净化效果。这一贡献的新颖之处在于,通过将超材料与受污染流体接触的总表面积进行堆积,显著增加了其表面积。将堆积的超材料样本进行UVC照射,有望在植入物消毒以及在大面积临床区域长期预防医院感染方面具有优势。该研究的新颖之处在于将超材料的大尺寸和小尺寸元素相结合,以优化与流体和照射相关的上述效果。大尺寸元素使辐射能够深入流体内部,小尺寸元素则将这种辐射最佳地分散到超材料的更深区域。提出了一种在大型超材料球体和纤维之间填充较小尺寸元素的方案,以促进对病原体的增强净化。结果表明,由于堆积,与受污染流体/表面接触的超材料总表面积显著增加。我们认为,这为构建对微生物检测和净化具有高灵敏度的新型设备开辟了新的有利前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3b27/10342985/98f4ea5f6e29/materials-16-04559-g001.jpg

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