Obtaining graphene nanoplatelets from various graphite intercalation compounds

Galunin, Evgeny; Memetov, N. R.

doi:10.1088/1757-899x/98/1/012041

Cited by 15 publications

(20 citation statements)

References 15 publications

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“…A prototype of the method of obtaining the GNPs is described in [1][2][3]. According to this method, graphene nanoplatelets were received by exfoliation of expanded graphite materials, which were obtained by intercalation of the crystalline (natural) graphite GSM-1 with peroxo-sulfate compounds.…”

Section: Methods Of Obtaining Gnpsmentioning

confidence: 99%

Development of Technical and Technological Solutions in the Field of Multilayer Graphene for Creating Electrode Nanomaterial Energy Storage Devices

Memetov

Schegolkov

Solomakho

et al. 2017

Proceedings of the Scientific-Practical Conference "Research and Development - 2016"

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The technologies of production of graphene nanoplatelets and nanocomposite materials (nano-, meso-porous carbon)/(graphene nanoplatelets, carbon nanotubes) were developed. The nanocomposite materials obtained possess specific surface area as high as 2000-3000 m 2 /g and more, and exceed the existing carbon materials by parameters of surface area, pore volume, and pore size. Supercapacitors based on the nanocomposite materials developed were made and tested.

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Section: Methods Of Obtaining Gnpsmentioning

confidence: 99%

Development of Technical and Technological Solutions in the Field of Multilayer Graphene for Creating Electrode Nanomaterial Energy Storage Devices

Memetov

Schegolkov

Solomakho

et al. 2017

Proceedings of the Scientific-Practical Conference "Research and Development - 2016"

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“…Расширенное соединение графита (РСГ) синтезировалось согласно методике, предложенной в [11]. Графит интеркалиро-вали раствором персульфата аммония в серной кислоте, затем выдерживали 3 ч при 40 о С для расширения, после чего проводили гидролиз и промывали водой до удаления кислоты.…”

Section: материалы и методыunclassified

“…В работе [12] определено, что при использовании ФФС в качестве дисперга-тора процесс ультразвуковой эксфолиации РСГ протекает более эффективно, достигаемые концентрации ГНП в водной дисперсии значительно выше, чем в случае применения обычных поверхностно-активных веществ.…”

Section: материалы и методыunclassified

“…ч. сухого остатка ФСС на 1 масс. ч. графена, поскольку ранее данное соотношение было найдено как оптимальное для ультразвуковой эксфо-лиации РСГ [12]. Полученную суспензию обрабатывали ультразвуком в течение 6 ч при непрерывном перемешивании механической мешалкой.…”

Section: материалы и методыunclassified

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Dispersion of Graphene Nanostructures for Effective Sorption of Pb(II) Ions from Water Solutions

Kucherova¹,

Gerasimova²,

Burakov³

et al. 2016

Vestnik

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“…GNP have an openly accessible and large specific surface area (∼500 m 2 /g) [21], making them an ideal material for rapid protein adsorption (Figure 1(a)). Typical GNP synthesis involves mechanical exfoliation of expanded graphite prepared from natural graphite [22,23]. Previous report has tested the suitability of expanded graphite materials with inert surface and abundant macropores for large molecule adsorption and bacteriostatic properties and, subsequently, demonstrated potential for medical applications as wound dressings [24].…”

Section: Introductionmentioning

confidence: 99%

Rapid Adsorption of Proinflammatory Cytokines by Graphene Nanoplatelets and Their Composites for Extracorporeal Detoxification

Zheng

Pescatore

Gogotsi

et al. 2018

Journal of Nanomaterials

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Sepsis is a complex clinical syndrome that features excessive release of cytokines and other inflammatory mediators that could lead to organ dysfunction. Despite different treatment and management options, sepsis associated high morbidity and mortality rates remain. This has prompted intensive research into alternative therapeutic approaches such as targeted removal of sepsis related molecules using extracorporeal hemoperfusion. In this study, we explore the use of graphene nanoplatelets (GNP) as lowcost alternative hemosorbents for rapid removal of a broad spectrum of proinflammatory cytokine markers. Firstly, the physical characteristics, cytotoxicity, and cytokine marker adsorption profile of GNP were assessed. The results not only confirmed the surface characteristics of GNP and their ability to rapidly remove cytokine markers, but also indicated a low cytotoxicity towards the hepatic cell line HepG2. GNP were then incorporated into a freestanding flexible GNP-poly(tetrafluoroethylene) film with preserved surface characteristics and cytokine adsorption profile for potential use in hemoperfusion applications.

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Obtaining graphene nanoplatelets from various graphite intercalation compounds

Cited by 15 publications

References 15 publications

Development of Technical and Technological Solutions in the Field of Multilayer Graphene for Creating Electrode Nanomaterial Energy Storage Devices

Development of Technical and Technological Solutions in the Field of Multilayer Graphene for Creating Electrode Nanomaterial Energy Storage Devices

Dispersion of Graphene Nanostructures for Effective Sorption of Pb(II) Ions from Water Solutions

Rapid Adsorption of Proinflammatory Cytokines by Graphene Nanoplatelets and Their Composites for Extracorporeal Detoxification

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