Quantifying the structural integrity of nanorod arrays
Florian Th\"ole, Longjian Xue, Claudia He{\ss}, Reinald Hillebrand,, Stanislav N. Gorb, Martin Steinhart

TL;DR
This paper introduces a quantitative method using microscopic image analysis to measure the structural integrity of nanorod arrays, enabling objective comparison of array quality and stability.
Contribution
It proposes the integrity fraction as a new quantitative metric for assessing nanorod array integrity, improving upon qualitative visual evaluations.
Findings
The integrity fraction correlates with nanorod length.
Reproducible procedures for counting array elements are established.
Quantitative comparisons of nanorod arrays are now possible.
Abstract
Arrays of aligned nanorods oriented perpendicular to a support, which are accessible by top-down lithography or by means of shape-defining hard templates, have received increasing interest as sensor components, components for nanophotonics and nanoelectronics, substrates for tissue engineering, sur-faces having specific adhesive or antiadhesive properties and as surfaces with customized wettability. Agglomeration of the nanorods deteriorates the performance of components based on nanorod arrays. A comprehensive body of literature deals with mechanical failure mechanisms of nanorods and design criteria for mechanically stable nanorod arrays. However, the structural integrity of nanorod arrays is commonly evaluated only visually and qualitatively. We use real-space analysis of microscopic images to quantify the fraction of condensed nanorods in nanorod arrays. We suggest the number of…
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