RESEARCH PROGRESS OF ANTIBACTERIAL SOLAR EVAPORATORS

被引：0

作者：

Yang X. ^{[1
]}

Tang J. ^{[1
,2
]}

Li W. ^{[1
]}

Lu X. ^{[1
]}

Song Z. ^{[1
]}

机构：

[1] State Key Laboratory of Biobased Material and Green Papermaking, Qilu University of Technology, Shandong Academy of Sciences, Ji’nan

[2] Institute for Advanced Interdisciplinary Research（IAIR）, University of Jinan, Ji’nan

来源：

Taiyangneng Xuebao/Acta Energiae Solaris Sinica | 2023年 / 44卷 / 08期

关键词：

antibacterial material; antimicrobial mechanism; desalination; evaporation; solar energy;

D O I：

10.19912/j.0254-0096.tynxb.2022-0586

中图分类号：

学科分类号：

摘要：

Solar interfacial evaporation is a technology of efficient utilization of solar energy proposed in recent years. Solar evaporator is the key component of solar interfacial evaporation system. The antibacterial performance of solar evaporator plays an important role in seawater desalination. In this review，the antibacterial materials and their antibacterial mechanism are introduced，and then the research progress and application of the antibacterial solar evaporators are summarized respectively. In addition，the prospect and future challenges of antibacterial solar evaporators are discussed，so as to provide reference for the follow-up research and development of antibacterial solar evaporators and their application in solar desalination. © 2023 Science Press. All rights reserved.

引用

页码：345 / 354

页数：9

共 57 条

[1] SONG J E, WRIGHT- CONTRERAS L，, Et al., A review of the current status of small- scale seawater reverse osmosis desalination ［J］, Water international, 42, 5, pp. 618-631, (2017)
[2] SONG C Y，, Et al., Solar-driven interfacial evaporation［J］, Nature energy, 3, 12, pp. 1031-1041, (2018)
[3] KIM J T, HWANG J W，, KIM S H，, Et al., Interfacial solar evaporator-physical principles and fabrication methods［J］, International journal of precision engineering and manufacturing-green technology, 8, 4, pp. 1347-1367, (2021)
[4] HAN Y，, Et al., Multifunctional CuO nanowire mesh for highly efficient solar evaporation and water purification［J］, ACS sustainable chemistry & engineering, 7, 5, pp. 5476-5485, (2019)
[5] HUANG W, Et al., Three-dimensional hierarchical Cu<sub>x</sub>S-based evaporator for high-efficiency multifunctional solar distillation［J］, Nano energy, 69, (2020)
[6] WALDMAN A J, BALSKUS E P., The human microbiota，infectious disease， and global health： challenges and opportunities［J］, ACS infectious diseases, 4, 1, pp. 14-26, (2018)
[7] NINO- MARTINEZ N，, SALAS OROZCO M F，, MARTINEZ-CASTANON G A，, Et al., Molecular mechanisms of bacterial resistance to metal and metal oxide nanoparticles［J］, International journal of molecular sciences, 20, 11, (2019)
[8] VALLYATHAN V，SHI X., The role of oxygen free radicals in occupational and environmental lung diseases［J］, Environmental health perspectives, 105, pp. 165-177, (1997)
[9] Metal nanoparticles： understanding the mechanisms behind antibacterial activity［J］, Journal of nanobiotechnology, 15, 1, pp. 1-20, (2017)
[10] JIAO J Y, ZHANG S T, Et al., Recent advances in research on antibacterial metals and alloys as implant materials［J］, Frontiers in cellular and infection microbiology, 11, (2021)

← 1 2 3 4 5 6 →