纳米凸起：珍珠层启发型纳米复合材料的结构起源。

Nanoasperity: structure origin of nacre-inspired nanocomposites.

机构信息

Beijing National Laboratory for Molecular Sciences (BNLMS), Institute of Chemistry, Chinese Academy of Sciences , Beijing 100190, China.

出版信息

ACS Nano. 2015 Feb 24;9(2):2167-72. doi: 10.1021/acsnano.5b00119. Epub 2015 Feb 2.

DOI:10.1021/acsnano.5b00119

PMID:25625593

Abstract

Natural nacre with superior mechanical property is generally attributed to the layered "brick-and-mortar" nanostructure. However, the role of nanograins on the hard aragonite platelets, which is so-called nanoasperity, is rarely addressed. Herein, we prepared silica platelets with aragonite-like nanoasperities via biomineralization strategy and investigated the effects of nanoasperity on the mechanical properties of resulting layered nanocomposites composed of roughened silica platelets and poly(vinyl alcohol). The tensile deformation behavior of the nanocomposites demonstrates that nanograins on silica platelets are responsive for strain hardening, improved strength, and toughness. The structure origin is attributed to the nanoasperity-controlled platelet sliding.

摘要

具有优异力学性能的天然珍珠母通常归因于分层的“砖-泥”纳米结构。然而，纳米晶粒在所谓的纳米凸起上对硬方解石薄片的作用却很少被提及。在此，我们通过生物矿化策略制备了具有方解石状纳米凸起的硅酸钠片，并研究了纳米凸起对方解石纳米片和聚乙烯醇组成的层状纳米复合材料机械性能的影响。纳米复合材料的拉伸变形行为表明，硅酸钠片上的纳米颗粒对方解石纳米片的应变硬化、强度提高和韧性改善具有响应性。结构起源归因于纳米凸起控制的薄片滑动。

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纳米凸起：珍珠层启发型纳米复合材料的结构起源。

Nanoasperity: structure origin of nacre-inspired nanocomposites.

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