Dispersion and agglomeration of carbon nanoclusters in 4-(trans-4′-hexylcyclohexyl)-isothiocyanatobenzene media on ITO and graphene surfaces: role of surface effect

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY Micro and Nano Systems Letters Pub Date : 2023-11-30 DOI:10.1186/s40486-023-00182-x
Archana Kumari Singh, Satya Pal Singh
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Abstract

We have synthesized carbon nanoparticles using mandarin juice via green synthesis rout. We have doped carbon nanoparticles in liquid crystal media and studied the surface effect on self-assembly of carbon nanoclusters on ITO coated glass surface and on graphene sheet. The purpose of this study is to construct uniform nano-micro droplets for novel applications and to understand and explore the underlying science behind molecular scale reorganization in the presence of functional surfaces like graphene. We have used density functional theory approach to confirm that the carbon nanoparticles in globular structures are dispersed in presence of graphene sheet due to chemical interaction of carbon rings (or say carbon nanoparticles) with graphene carbon atoms. In order to minimize the free energy, the carbon nanoparticles leave the carbon globular structures and are dispersed to form rectangular structures in presence of LC media at graphene surface. The carbon nanoparticles are dispersed to increase contact area with graphene surface. The results are useful in construction of desired nano-micro structures for possible novel purposes in medical field since carbon nanoparticles are biocompatible. Optical microscopy, FESEM, NMR and UV spectra verifies the droplet formation and its effect on the surface and electronic properties of carbon nanoparticles.

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碳纳米团簇在4-(反式-4 ' -己基环己基)-异硫氰酸苯介质中在ITO和石墨烯表面的分散和团聚:表面效应的作用
我们采用绿色合成路线,用柑桔汁合成了碳纳米颗粒。我们在液晶介质中掺杂了碳纳米颗粒,研究了表面效应对碳纳米团簇在ITO涂层玻璃表面和石墨烯片上自组装的影响。本研究的目的是为新应用构建均匀的纳米微液滴,并了解和探索在石墨烯等功能表面存在下分子尺度重组背后的潜在科学。我们利用密度泛函理论的方法证实,由于碳环(或者说碳纳米颗粒)与石墨烯碳原子的化学相互作用,球状结构中的碳纳米颗粒在石墨烯片的存在下分散。为了使自由能最小化,碳纳米颗粒在石墨烯表面LC介质存在的情况下,离开碳球形结构,分散形成矩形结构。分散碳纳米颗粒以增加与石墨烯表面的接触面积。由于碳纳米颗粒具有生物相容性,因此该结果有助于构建所需的纳米微结构,从而在医学领域实现可能的新用途。光学显微镜、FESEM、NMR和UV光谱验证了液滴的形成及其对碳纳米颗粒表面和电子性能的影响。
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来源期刊
Micro and Nano Systems Letters
Micro and Nano Systems Letters Engineering-Biomedical Engineering
CiteScore
10.60
自引率
5.60%
发文量
16
审稿时长
13 weeks
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