Method to obtain carbon nano-onions by pyrolisys of propane

Garcia-Martin, Tomas; Rincon-Arevalo, Pedro; Campos-Martin, Gemma

doi:10.2478/s11534-013-0294-1

Cited by 14 publications

(7 citation statements)

References 41 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…62 In addition, there are many other methods for the synthesis of CNO such as laser ablation, 63,64 halogen gas treatment, 65 heavy shock compression, 66 catalyst-free thermolysis of sodium azide and hexachlorobenzene, 67 etc. Additionally, apart from costly synthetic procedures, CNO can be synthesized by the popular and cost-effective pyrolysis method of different carbon sources like plastic waste, 68 wood waste, 52 vegetable ghee, 35 sodium deoxycholate 54 propane, 69 and naphthalene. 53 Currently, water-soluble CNO clusters were prepared by simply sonicating the candle soot with an oxidizing agent and used as an imaging-based photothermal therapy application.…”

Section: Synthesis Methods and Structural Properties Of Carbon Nano-o...mentioning

confidence: 99%

Fluorescent Carbon Nano-onion as Bioimaging Probe

Dalal

Saini

Garg

et al. 2021

ACS Appl. Bio Mater.

View full text Add to dashboard Cite

Concentrically arranged multilayered fullerenes exhibiting onion-like morphology are popularly known as carbon nano-onion (CNO) and are useful in bioimaging application. On the basis of the origin of the fluorescence, the CNO-based nanoprobes are classified into type I and type II. The type I CNO-based nanoprobe needs a secondary moiety such as organic dyes or an amine functionalization at its surface to induce the fluorescence. On the other hand, the emission in type II does not originate from such an external surface passivating agent. The CNO-based system not only shows structural similarity to the well-known multiwalled carbon nanotube but is also a bit more advantageous because of its low cytotoxicity. These features enable their prolonged use in the biological system for imaging purposes. In particular, we have covered the aspects of synthesis, surface functionalization, the origin of fluorescence, and biocompatibility. In addition, recent developments directed toward in vitro and in vivo imaging studies by utilizing CNO-based nanoprobes are summarized here.

show abstract

Section: Synthesis Methods and Structural Properties Of Carbon Nano-o...mentioning

confidence: 99%

Fluorescent Carbon Nano-onion as Bioimaging Probe

Dalal

Saini

Garg

et al. 2021

ACS Appl. Bio Mater.

View full text Add to dashboard Cite

show abstract

“…Key words: onion-like carbon, nanotube, partial oxidation, Raman spectroscopy, trans-polyacetylene [7][8][9][10], каталитическое осаждение из газовой фазы [11][12][13], сольвотермический метод [14], синтез в пламени [15][16][17][18][19]. Структура и свойства УЛС меняются в зависимости от способа получения.…”

Section: Treatment Of the Onion-like Carbon In Air At 320 °C Leads To...unclassified

Features of Onion-Like Carbon Obtained in the Process of Partial Oxidation of Natural Gas

Lugvishchuk¹,

Karaeva²,

Kazennov³

et al. 2021

ChemChemTech

View full text Add to dashboard Cite

Исследованы структурные и физические свойства углерода с луковичной структурой, полученного в процессе парциального окисления природного газа при различных мольных соотношениях сырьевых газов кислород/природный газ. Установлено, что при увеличении мольного соотношения кислород/природный газ с 0,650 до 0,750 возрастает термическая стабильность углерода с луковичной структурой с 520 до 620 °C. В образце углерода с луковичной структурой, полученном при мольном соотношении кислород/природный газ -0,750 в интервале температур от 680 до 750 °C, показано наличие фазы углерода, устойчивой к окислению. Межплоскостное расстояние (d002) в полученном углероде с луковичной структурой составляло 0,341 нм. На спектрах комбинационного рассеяния света, на частоте сдвига 1164 см -1 , в образцах углерода с луковичной структурой, синтезированных при температурах ниже 1500 °С, обнаружены следы транс-полиацетилена. В результате деконволюции спектра также обнаружен парный пик на частоте сдвига 1480 см -1 . Следов транс-полиацетилена в продуктах, полученных при температуре синтеза более 1550 °С, не было зафиксировано. Термическая обработка полученного углерода с луковичной структурой, осуществлённая при 320 °С в атмосфере воздуха, приводила к почти полному удалению данных примесей. Данные спектроскопии комбинационного рассеяния света показали, что увеличение концентрации кислорода в сырьевой смеси приводит к росту соотношения интенсивностей пиков ID/IG от 0,815 до 0,849. Дифракционная картина углерода с луковичной структурой соответствовала дефектной графитированной структуре. Удельная площадь поверхности углерода с луковичной структурой варьировалась от 80 до 100 м 2 /г. Получение углерода с луковичной структурой в процессе парциального окисления природного газа в синтез-газ, необходимый для ряда «нисходящих» процессов, обеспечивает высокий выход углерода с луковичной структурой как субпродукта высокой добавленной стоимости при низких производственных затратах.

show abstract

“…The OLCs were synthesized initially using carbonaceous materials or amorphous carbon soot via heat treatment above 2500 K and high-energy electron beam irradiation . Both the precursors and methods used for the synthesis of OLCs have been modified over time. − ND, methane, propane, and aromatic compounds have been utilized to obtain various structures of OLCs ranging from spherical and polyhedral to hollow or those containing metal cores, through annealing, , chemical vapor deposition (CVD), carbon ion implantation, arc-discharge, pyrolysis, , and so forth . Among all these methods and precursors, large quantities of OLCs have been synthesized from ND due to the ease of synthesis and availability .…”

Section: Introductionmentioning

confidence: 99%

Transformation of Nanodiamonds to Onion-like Carbons by Ambient Electrospray Deposition

et al. 2021

View full text Add to dashboard Cite

Onion-like carbons (OLCs) are a class of fullerene-like circular nanoallotropes of carbon, typically synthesized from nanodiamond (ND) via thermal annealing, plasma spraying, and laser ablation. These methods require high temperature, high vacuum, or inert gas. Here, we report an ambient electrospray deposition (AESD) process to transform NDs (11 ± 1 nm in size) into OLCs (50 ± 13 nm in size) in water. Transmission electron microscopy (TEM), field emission scanning electron microscopy (FESEM), Raman spectroscopy, and X-ray photoelectron spectroscopy (XPS) were used for the characterization of NDs and OLCs. High-resolution TEM images showed an increased interplanar spacing from ND (0.23 nm) to OLC (0.39 nm). Raman spectra showed a shift in the ND peak from 1336 cm–1 to D-band at 1349 cm–1, and XPS quantitatively estimated an increase in the graphitization ratio (sp2/sp3) from 0.95 to 3.16 after AESD. Comparison of electrospray with sonic spray confirmed that such a transformation required an external voltage as well. AESD was also performed for NDs dispersed in ethanol and acetonitrile, which showed a solvent-dependent transformation.

show abstract

Method to obtain carbon nano-onions by pyrolisys of propane

Abstract: Abstract:We present a new and simple method for carbon nano-onions (CNOs) production which is based on the pyrolysis of Propane.

Cited by 14 publications

References 41 publications

Fluorescent Carbon Nano-onion as Bioimaging Probe

Fluorescent Carbon Nano-onion as Bioimaging Probe

Features of Onion-Like Carbon Obtained in the Process of Partial Oxidation of Natural Gas

Transformation of Nanodiamonds to Onion-like Carbons by Ambient Electrospray Deposition

Contact Info

Product

Resources

About