小分子有机纳米晶体在性质方面类似于碳纳米点。

Small molecular organic nanocrystals resemble carbon nanodots in terms of their properties.

作者信息

Khan Syamantak, Sharma Akshita, Ghoshal Sourav, Jain Sanjhal, Hazra Montu K, Nandi Chayan K

机构信息

School of Basic Science , Indian Institute of Technology Mandi , Mandi-175001 , HP , India . Email:

Chemical Sciences Division , Saha Institute of Nuclear Physics , Homi Bhabha National Institute , Kolkata-700064 , WB , India . Email:

出版信息

Chem Sci. 2017 Oct 16;9(1):175-180. doi: 10.1039/c7sc02528a. eCollection 2018 Jan 7.

DOI:10.1039/c7sc02528a

PMID:29629085

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5869300/

Abstract

The most commonly observed phenomena in carbon nanodots (CNDs) are the strong excitation wavelength dependent multicolor fluorescence emission and the particle size distribution between 3-5 nm observed using a transmission electron microscope (TEM). However, it is not evident yet whether the emission originates from the particles observed using a TEM. In this article, we show that hydrothermal treatment of citric acid produces methylenesuccinic acid, which gives rise to hydrogen-bonded nano-assemblies with CND-like properties. While single crystal X-ray crystallography confirms the structure of methylenesuccinic acid, fluorescence correlation spectroscopy (FCS) confirms the presence of a molecular fluorophore with an average hydrodynamic diameter of ∼0.9 nm. This size is much smaller than the size of the particles observed using a TEM. We conclude that the particles observed using a TEM are the drying mediated nanocrystals of methylenesuccinic acid.

摘要

碳纳米点（CNDs）中最常观察到的现象是强烈的依赖激发波长的多色荧光发射以及使用透射电子显微镜（TEM）观察到的3-5纳米的粒径分布。然而，这种发射是否源自使用TEM观察到的粒子尚不清楚。在本文中，我们表明柠檬酸的水热处理会产生亚甲基琥珀酸，它会形成具有类CND性质的氢键纳米聚集体。虽然单晶X射线晶体学证实了亚甲基琥珀酸的结构，但荧光相关光谱（FCS）证实了存在平均流体动力学直径约为0.9纳米的分子荧光团。这个尺寸比使用TEM观察到的粒子尺寸小得多。我们得出结论，使用TEM观察到的粒子是亚甲基琥珀酸的干燥介导纳米晶体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab04/5869300/42a5cf1e3b20/c7sc02528a-f1.jpg

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小分子有机纳米晶体在性质方面类似于碳纳米点。

Small molecular organic nanocrystals resemble carbon nanodots in terms of their properties.

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