Antibody-level Bacteria Grabbing by "Mechanic Invasion" of Bioinspired Hedgehog Artificial Mesoporous Nanostructure for Hierarchical Dynamic Identification and Light-Response Sterilization
文献类型: 外文期刊
第一作者: Liu, Sijie
作者: Liu, Sijie;Shu, Rui;Jia, Huilin;Wang, Kexin;Wang, Biao;Zhang, Jiayi;Wang, Jianlong;Jin, Maojun;Sun, Jing;Sattorov, Nosirjon;Makhmudov, Kamoljon Burkhonovich
作者机构:
关键词: bacteria grabbing; biomimetic nanostructure; light-response; mechanic invasion; spiky topography
期刊名称:ADVANCED MATERIALS ( 影响因子:26.8; 五年影响因子:28.9 )
ISSN: 0935-9648
年卷期: 2025 年 37 卷 15 期
页码:
收录情况: SCI
摘要: The interactions exploration between microorganisms and nanostructures are pivotal steps toward advanced applications, but the antibody-level bacteria grabbing is limited by the poor understanding of interface identification mechanisms in small-sized systems. Herein, the de novo design of a bioinspired hedgehog artificial mesoporous nanostructure (core-shell mesoporous Au@Pt (mAPt)) are proposed to investigate the association between the topography design and efficient bacteria grabbing. These observations indicate that virus-like spiky topography compensates for the obstacles faced by small-sized materials for bacteria grabbing, including the lack of requisite microscopic cavities and sufficient contact area. Molecular dynamics simulation reveals that spiky topography with heightened mechano-invasiveness (6.56 x 103 KJ mol-1) facilitates antibody-level bacteria grabbing, attributed to the "mechanic invasion"-induced hierarchical dynamic identification ranging from rough surface contact to penetration fixation. Furthermore, light reflectance and finite element calculation confirmed that mAPt exhibits near-superblack characteristic and plasmonic hot spot, facilitating enhanced photothermal conversion with power dissipation density at 2.04 x 1021 W m-3. After integrating the hierarchical dynamic identification with enhanced light response, mAPt enables advanced applications in immunoassay with 50-fold sensitivity enhancement and over 99.99% in vitro photothermal sterilization. It is anticipated that this novel biomimetic design provides a deeper understanding of bacteria grabbing and a promising paradigm for bacteria combating.
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