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Anticounterfeiting tags based on randomly oriented MoSx clusters enabled by capillary and Marangoni flow

Engineering and Technology

Anticounterfeiting tags based on randomly oriented MoSx clusters enabled by capillary and Marangoni flow

C. Moon, P. Pujar, et al.

Discover a groundbreaking method for crafting anticounterfeiting tags using randomly oriented MoSx or MoOx clusters. This innovative approach exploits capillary and Marangoni flows to create unpredictable cluster shapes, with advanced imaging techniques transforming these into digitized images. This remarkable research was conducted by Changgyun Moon, Pavan Pujar, Srinivas Gandla, Byungjun So, Sunjong Lee, Dongmin Kim, Kon-Woo Kwon, and Sunkook Kim.

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~3 min • Beginner • English
Abstract
Recent advances in anticounterfeiting technology highlight the importance of functional materials with innovative processing methods for achieving robust anticounterfeiting tags. Here, we report a fabrication approach that enables the formation of randomly oriented MoSx or MoOx clusters of unpredictable shapes for use as anticounterfeiting tags. We exploit the combined effects of capillary and Marangoni flows to drive solute in a pre-deposited wet film that produces random clusters. The tags are read using high-speed confocal laser microscopy to extract complex topographies within seconds. Digitization converts height profiles into grayscale images, followed by mathematical processing and von Neumann debiasing to generate keys. The extracted keys are evaluated with NIST statistical tests (six tests) to confirm randomness. This approach underscores the role of functional materials and processing in robust tagging.
Publisher
Communications Materials
Published On
Nov 16, 2023
Authors
Changgyun Moon, Pavan Pujar, Srinivas Gandla, Byungjun So, Sunjong Lee, Dongmin Kim, Kon-Woo Kwon, Sunkook Kim
Tags
anticounterfeiting
MoSx clusters
MoOx clusters
capillary flow
imaging techniques
randomness
statistical tests

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