Bridging Nanocrystals to Robust, Multifunctional, Bulk Materials through Nature-Inspired, Hierarchical Design

Abstract: Self-assembly of nano-building blocks has emerged as a key tool to direct the arrangement and the collective properties of nanomaterials. Nevertheless, the lack of control over larger length scales when nanomaterials are processed typically leads to defects which scale with the dimensions of the specimen. This ultimately limits their structural integrity and hence their development beyond microscale materials and devices. Herein, we propose a new, versatile approach to fabricate at low temperatures a nature-in… Show more

“…Although SCNCs can be upscaled to components with sizes in the centimeter range, especially when used as building blocks in hierarchical composites, [17][18][19] purely supercrystalline materials still pose challenges for macroscopic testing, due to pores and cracks arising during processing. 5 Conventional fatigue tests also entail lengthy and relatively complex sample preparation procedures.…”

Nanofatigue of supercrystalline nanocomposites

“…Although SCNCs can be upscaled to components with sizes in the centimeter range, especially when used as building blocks in hierarchical composites, [17][18][19] purely supercrystalline materials still pose challenges for macroscopic testing, due to pores and cracks arising during processing. 5 Conventional fatigue tests also entail lengthy and relatively complex sample preparation procedures.…”

Nanofatigue of supercrystalline nanocomposites