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Main Authors: Sweedan, Amro O., Zhang, Kefan, Bashouti, Muhammad Y., Feichtner, Thorsten
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.01327
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author Sweedan, Amro O.
Zhang, Kefan
Bashouti, Muhammad Y.
Feichtner, Thorsten
author_facet Sweedan, Amro O.
Zhang, Kefan
Bashouti, Muhammad Y.
Feichtner, Thorsten
contents High aspect ratio oblate polygonal gold crystals - such as triangular and hexagonal platelets - have attracted considerable interest due to their extraordinary physical, chemical, and mechanical properties. Commonly referred to as "gold flakes," these structures exhibit atomically flat surfaces, $μ$m$^2$ areas with nanometric thickness, and a monocrystalline morphology. Since their first discovery by John Turkevich in 1951, considerable progress has been made in shape-controlled synthesis and large-scale production, unlocking steadily new opportunities for ever more advanced applications. This review explores large-area gold flakes with lateral dimensions spanning from hundreds of nanometers to millimeters, emphasizing their unique properties. We provide a comprehensive overview of key developments, from early discoveries, synthesis approaches, and fabrication techniques to recent breakthroughs. Emphasis is placed on the integration of gold flake as functional building blocks in photonics (e.g., for nanoantennas), sensing, nanoelectronics, biomedicine, and beyond. We conclude with a discussion of emerging roles and future developments of this unique class of materials.
format Preprint
id arxiv_https___arxiv_org_abs_2511_01327
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Large-Area Atomically Flat Monocrystalline Gold Flakes: Recent Advances, Applications, and Future Potential
Sweedan, Amro O.
Zhang, Kefan
Bashouti, Muhammad Y.
Feichtner, Thorsten
Mesoscale and Nanoscale Physics
High aspect ratio oblate polygonal gold crystals - such as triangular and hexagonal platelets - have attracted considerable interest due to their extraordinary physical, chemical, and mechanical properties. Commonly referred to as "gold flakes," these structures exhibit atomically flat surfaces, $μ$m$^2$ areas with nanometric thickness, and a monocrystalline morphology. Since their first discovery by John Turkevich in 1951, considerable progress has been made in shape-controlled synthesis and large-scale production, unlocking steadily new opportunities for ever more advanced applications. This review explores large-area gold flakes with lateral dimensions spanning from hundreds of nanometers to millimeters, emphasizing their unique properties. We provide a comprehensive overview of key developments, from early discoveries, synthesis approaches, and fabrication techniques to recent breakthroughs. Emphasis is placed on the integration of gold flake as functional building blocks in photonics (e.g., for nanoantennas), sensing, nanoelectronics, biomedicine, and beyond. We conclude with a discussion of emerging roles and future developments of this unique class of materials.
title Large-Area Atomically Flat Monocrystalline Gold Flakes: Recent Advances, Applications, and Future Potential
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2511.01327