Plasma-triggered reduction-exfoliation of highly porous
graphene oxide 3D materials

a 2021

Plasma-triggered reduction-exfoliation of highly porous graphene oxide 3D materials

KRUMPOLEC, Richard; František ZELENÁK a Mirko ČERNÁK

Základní údaje

Originální název

Plasma-triggered reduction-exfoliation of highly porous graphene oxide 3D materials

Autoři

KRUMPOLEC, Richard ; František ZELENÁK a Mirko ČERNÁK

Vydání

2nd Plasma Nanotechnologies and Bioapplications Workshop, 2021

Další údaje

Jazyk

angličtina

Typ výsledku

Konferenční abstrakt

Obor

10305 Fluids and plasma physics

Stát vydavatele

Česká republika

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Označené pro přenos do RIV

Organizační jednotka

Přírodovědecká fakulta

ISBN

978-80-210-9946-3

Klíčová slova anglicky

graphene oxide; reduced graphene oxide; atmospheric plasma; reduction-exfoliation; 3D GO composites; electrical conductivity

Příznaky

Mezinárodní význam

Změněno: 5. 11. 2021 12:31, Mgr. Marie Novosadová Šípková, DiS.

Anotace

V originále

Simple, cheap, and fast mass-production of graphene-derived materials like graphene oxide (GO) and reduced graphene oxide (rGO), together with a direct application of GO/rGO materials with extraordinary properties exceeding the state-of-the-art solution, is a crucial to reach its widespread commercial success. We are working on fast, low-cost, scalable, chemical-free fabrication method [1] of rGO-based sheets, 3D rGO aerogel-like “cakes” and composites using an electrical plasma-triggered reduction-exfoliation process of highly porous GO materials and GO-based composites that are fabricated using our custom method. We have found that atmospheric Diffuse Coplanar Surface Dielectric Barrier Discharge (DCSBD) plasma generated in nitrogen is capable to trigger a fast (≪1 s), self-propagating reduction-exfoliation of GO into rGO [2] associated with a significant improvement (~ 105 fold) of electrical properties of plasma-treated material. Typically, plasma-reduced GO sheets (Fig 1a-b) and 3D aerogel-like cakes (Fig.1c), after rolling press to a thin films of thickness 20-100 μm possess sheet resistance ~ 10 Ω.sq-1 and sheet conductivity reaching 2000 S.m-1. Despite of standard thin effective thickness of DCSBD plasma of 0.3 mm, the nitrogen DCSBD plasma trigger the modification process even in whole volume of porous GO samples of thickness of several mm. From the point of view of plasma physics and interaction of studied GO-based porous material with DCSBD plasma, we have observed a strong influence of the electrode geometry of diffuse coplanar surface barrier discharge on the properties of plasma triggered reduction-exfoliation process. We will present two applications that we are currently working on: a) free-standing rGO aerogel-like sheet as a supporting electrode for Li-based batteries and b) plasma-reduced rGO layer on PES nonwoven as a potential membrane for water treatment applications.

Návaznosti

LM2018097, projekt VaV

Název: Centrum výzkumu a vývoje plazmatu a nanotechnologických povrchových úprav (Akronym: CEPLANT)

Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, R&D centre for plasma and nanotechnology surface modifications

MUNI/31/03202005/2020, interní kód MU

Název: Zařízení pro přípravu a plazmovou modifikaci aerogelů na bázi redukovaného grafen oxidu

Investor: Masarykova univerzita, Zařízení pro přípravu a plazmovou modifikaci aerogelů na bázi redukovaného grafen oxidu

Citovat

KRUMPOLEC, Richard; František ZELENÁK a Mirko ČERNÁK. Plasma-triggered reduction-exfoliation of highly porous graphene oxide 3D materials. In 2nd Plasma Nanotechnologies and Bioapplications Workshop. 2021. ISBN 978-80-210-9946-3.

@proceedings{1801314,
   author = {Krumpolec, Richard and Zelenák, František and Černák, Mirko},
   booktitle = {2nd Plasma Nanotechnologies and Bioapplications Workshop},
   keywords = {graphene oxide; reduced graphene oxide; atmospheric plasma; reduction-exfoliation; 3D GO composites; electrical conductivity},
   language = {eng},
   isbn = {978-80-210-9946-3},
   title = {Plasma-triggered reduction-exfoliation of highly porous graphene oxide 3D materials},
   url = {https://munispace.muni.cz/library/catalog/book/2111},
   year = {2021}
}

TY  - CONF
ID  - 1801314
AU  - Krumpolec, Richard - Zelenák, František - Černák, Mirko
PY  - 2021
TI  - Plasma-triggered reduction-exfoliation of highly porous graphene oxide 3D materials
SN  - 9788021099463
KW  - graphene oxide
KW  - reduced graphene oxide
KW  - atmospheric plasma
KW  - reduction-exfoliation
KW  - 3D GO composites
KW  - electrical conductivity
UR  - https://munispace.muni.cz/library/catalog/book/2111
N2  - Simple, cheap, and fast mass-production of graphene-derived materials like graphene oxide (GO) and reduced graphene oxide (rGO), together with a direct application of GO/rGO materials with extraordinary properties exceeding the state-of-the-art solution, is a crucial to reach its widespread commercial success. We are working on fast, low-cost, scalable, chemical-free fabrication method [1] of rGO-based sheets, 3D rGO aerogel-like “cakes” and composites using an electrical plasma-triggered reduction-exfoliation process of highly porous GO materials and GO-based composites that are fabricated using our custom method. We have found that atmospheric Diffuse Coplanar Surface Dielectric Barrier Discharge (DCSBD) plasma generated in nitrogen is capable to trigger a fast (≪1 s), self-propagating reduction-exfoliation of GO into rGO [2] associated with a significant improvement (~ 105 fold) of electrical properties of plasma-treated material. Typically, plasma-reduced GO sheets (Fig 1a-b) and 3D aerogel-like cakes (Fig.1c), after rolling press to a thin films of thickness 20-100 μm possess sheet resistance ~ 10 Ω.sq-1 and sheet conductivity reaching 2000 S.m-1. Despite of standard thin effective thickness of DCSBD plasma of 0.3 mm, the nitrogen DCSBD plasma trigger the modification process even in whole volume of porous GO samples of thickness of several mm. From the point of view of plasma physics and interaction of studied GO-based porous material with DCSBD plasma, we have observed a strong influence of the electrode geometry of diffuse coplanar surface barrier discharge on the properties of plasma triggered reduction-exfoliation process. We will present two applications that we are currently working on: a) free-standing rGO aerogel-like sheet as a supporting electrode for Li-based batteries and b) plasma-reduced rGO layer on PES nonwoven as a potential membrane for water treatment applications.
ER  -

KRUMPOLEC, Richard; František ZELENÁK a Mirko ČERNÁK. Plasma-triggered reduction-exfoliation of highly porous graphene oxide 3D materials. In \textit{2nd Plasma Nanotechnologies and Bioapplications Workshop}. 2021. ISBN~978-80-210-9946-3.

Přehled o publikaci