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Main Authors: Wang, Yicheng, Jing, Jixiang, Luo, Yumeng, Ma, Linjie, Wang, Zhongqiang, Wang, Qi, Li, Kwai Hei, Chu, Zhiqin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.13406
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author Wang, Yicheng
Jing, Jixiang
Luo, Yumeng
Ma, Linjie
Wang, Zhongqiang
Wang, Qi
Li, Kwai Hei
Chu, Zhiqin
author_facet Wang, Yicheng
Jing, Jixiang
Luo, Yumeng
Ma, Linjie
Wang, Zhongqiang
Wang, Qi
Li, Kwai Hei
Chu, Zhiqin
contents Diamond exhibits superb performance across a wide range of applications due to its enormous outstanding properties in electronic, photonic and quantum fields. Yet heterogeneous integration of diamond for on-chip functionalities, like 2D materials, remains challenging due to the hard acquisition of scalable, transferable and ultrathin diamond samples. Recently, the edge-exposed exfoliation has been demonstrated as an effective way to produce wafer-scale, freestanding and ultrathin diamond films. However, the incompatibility of the newly developed diamond film with conventional nano-fabrication methods makes it difficult to fabricate diamond film into practical devices. Herein, we demonstrate the mask-transferring by sugar as a versatile method for pattern-definition on diamond films, which shows excellent geometrical resolution and accuracy comparing to conventional approaches. Additionally, based on this method, the flexible all-diamond metasurfaces functioning as structural colors have been achieved, which indicates its huge potential for fabricating more diamond-related devices.
format Preprint
id arxiv_https___arxiv_org_abs_2412_13406
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A versatile method for nano-fabrication on diamond film: flexible diamond metasurfaces as a demonstration
Wang, Yicheng
Jing, Jixiang
Luo, Yumeng
Ma, Linjie
Wang, Zhongqiang
Wang, Qi
Li, Kwai Hei
Chu, Zhiqin
Optics
Diamond exhibits superb performance across a wide range of applications due to its enormous outstanding properties in electronic, photonic and quantum fields. Yet heterogeneous integration of diamond for on-chip functionalities, like 2D materials, remains challenging due to the hard acquisition of scalable, transferable and ultrathin diamond samples. Recently, the edge-exposed exfoliation has been demonstrated as an effective way to produce wafer-scale, freestanding and ultrathin diamond films. However, the incompatibility of the newly developed diamond film with conventional nano-fabrication methods makes it difficult to fabricate diamond film into practical devices. Herein, we demonstrate the mask-transferring by sugar as a versatile method for pattern-definition on diamond films, which shows excellent geometrical resolution and accuracy comparing to conventional approaches. Additionally, based on this method, the flexible all-diamond metasurfaces functioning as structural colors have been achieved, which indicates its huge potential for fabricating more diamond-related devices.
title A versatile method for nano-fabrication on diamond film: flexible diamond metasurfaces as a demonstration
topic Optics
url https://arxiv.org/abs/2412.13406