Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition

Control of composite nanoparticle topology can be difficult. Here the authors control the topological structure of mesoporous multipods by controlling the number of nucleation sites, and they used the resultant nanoparticles for bacterial adhesion, segregation and antibiotic delivery.

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Autores principales: Tiancong Zhao, Liang Chen, Peiyuan Wang, Benhao Li, Runfeng Lin, Areej Abdulkareem Al-Khalaf, Wael N. Hozzein, Fan Zhang, Xiaomin Li, Dongyuan Zhao
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/12771968270745fc9dcda0c059fa150d
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spelling oai:doaj.org-article:12771968270745fc9dcda0c059fa150d2021-12-02T15:36:03ZSurface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition10.1038/s41467-019-12378-02041-1723https://doaj.org/article/12771968270745fc9dcda0c059fa150d2019-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-12378-0https://doaj.org/toc/2041-1723Control of composite nanoparticle topology can be difficult. Here the authors control the topological structure of mesoporous multipods by controlling the number of nucleation sites, and they used the resultant nanoparticles for bacterial adhesion, segregation and antibiotic delivery.Tiancong ZhaoLiang ChenPeiyuan WangBenhao LiRunfeng LinAreej Abdulkareem Al-KhalafWael N. HozzeinFan ZhangXiaomin LiDongyuan ZhaoNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-10 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Tiancong Zhao
Liang Chen
Peiyuan Wang
Benhao Li
Runfeng Lin
Areej Abdulkareem Al-Khalaf
Wael N. Hozzein
Fan Zhang
Xiaomin Li
Dongyuan Zhao
Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
description Control of composite nanoparticle topology can be difficult. Here the authors control the topological structure of mesoporous multipods by controlling the number of nucleation sites, and they used the resultant nanoparticles for bacterial adhesion, segregation and antibiotic delivery.
format article
author Tiancong Zhao
Liang Chen
Peiyuan Wang
Benhao Li
Runfeng Lin
Areej Abdulkareem Al-Khalaf
Wael N. Hozzein
Fan Zhang
Xiaomin Li
Dongyuan Zhao
author_facet Tiancong Zhao
Liang Chen
Peiyuan Wang
Benhao Li
Runfeng Lin
Areej Abdulkareem Al-Khalaf
Wael N. Hozzein
Fan Zhang
Xiaomin Li
Dongyuan Zhao
author_sort Tiancong Zhao
title Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
title_short Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
title_full Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
title_fullStr Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
title_full_unstemmed Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
title_sort surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/12771968270745fc9dcda0c059fa150d
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AT peiyuanwang surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT benhaoli surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT runfenglin surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT areejabdulkareemalkhalaf surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT waelnhozzein surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT fanzhang surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT xiaominli surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
AT dongyuanzhao surfacekineticsmediatedmesoporousmultipodsforenhancedbacterialadhesionandinhibition
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