How to efficiently isolate multiple size ranges of oxidized or hydrogenated milled nanodiamonds†

IF 4.6 3区 材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Marie Finas, Hugues A. Girard and Jean-Charles Arnault
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引用次数: 0

Abstract

Nanodiamonds exhibit various properties, such as surface reconstruction, electrostatic potentials of facets, and thermal, fluorescence, or quantum characteristics, which are dependent on their size. However, the synthesis method can lead to significant size polydispersity, particularly in nanodiamonds obtained from milling (MND). Therefore, it is essential to efficiently sort MND by size to ensure uniformity and optimize their properties for biomedical, sensing or energy applications. This method successfully isolates nanodiamonds into three distinct size ranges: approximately 10 nm for the smallest, 25 nm for the intermediate, and 35 nm for the largest. The protocol was then extended to hydrogenated MND from the same source, resulting in the separation of similar size populations.

Abstract Image

Abstract Image

如何有效分离多种尺寸范围的氧化或氢化研磨纳米金刚石。
纳米金刚石具有多种特性,如表面重构、刻面静电电位以及热、荧光或量子特性,而这些特性都与其尺寸有关。然而,合成方法会导致明显的尺寸多分散性,特别是在通过研磨(MND)获得的纳米金刚石中。因此,必须对 MND 进行有效的尺寸分选,以确保其均匀性,并优化其在生物医学、传感或能源应用中的特性。这种方法成功地将纳米金刚石分离成三个不同的尺寸范围:最小的约为 10 纳米,中等的约为 25 纳米,最大的约为 35 纳米。然后将该方案扩展到来自同一来源的氢化 MND,从而分离出类似尺寸的群体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Nanoscale Advances
Nanoscale Advances Multiple-
CiteScore
8.00
自引率
2.10%
发文量
461
审稿时长
9 weeks
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