One-step reduction, characterization and magnetic behaviour of exfoliated graphene oxide

• Autorzy: Dikio E. D. , Thema F. T. , Farah A. M. , Shooto N. D.
• Języki publikacji: EN

Abstrakty

EN

The functionalized graphene (GO) was fabricated by a simple method of chemical reduction in a polar aprotic solvent. This paper therefore, describes a versatile and synthetic route for the preparation of reduced graphene oxide (RGO) and its behavior when exposed to magnetic field environment. The characterization results of transmission electron microscopy (TEM), scanning electron microscopy (SEM), Raman spectroscopy and the attenuated total reflectance-Fourier transform infra-red (ATR-FTIR) analysis indicate that graphite was exfoliated and reduced to graphene layers.

Słowa kluczowe

EN

chemical reduction; hydrazine hydrate; graphite oxide; reduced graphene oxide; exfoliate

• Wydawca: De Gruyter
• Czasopismo: Materials Science Poland
• Rocznik: 2013
• Tom: Vol. 31, No. 1
• Strony: 59--64
• Opis fizyczny: Bibliogr. 22 poz., rys., wykr.

Twórcy

autor

Dikio E. D.

autor

Thema F. T.

autor

Farah A. M.

autor

Shooto N. D.

• Applied Chemistry and Nanoscience Laboratory, Department of Chemistry, Vaal University of Technology, P.O. Box X021 Vanderbijlpark, 1900, South Africa

Bibliografia

• [1] NOVOSELOV K.S., GEIM A.K., MOROZOV S.V., JIANG D., ZHANG Y., DUBONOS S.V., GRIGORIEVA I.V., FIRSOV A.A., Sci., 306 (2006), 666.
• [2] GEIM A.K., NOVOSELOV K.S.,Nat. Mater., 6(3) (2009), 183.
• [3] NOVOSELOV K.S., Phys. World, 22(8) (2009), 27-30.
• [4] NAIR R.R., BLAKE P., GRIGORENKO A.N., NOVOSELOV K.S., BOOTH T.J., STAUBER T., PERES N.M.R., GEIM A.K., Sci., 320 (2008), 1308.
• [5] EDA G., FANCHINI G., CHHWALLA M., J. Nat. Nanotech., 3(5) (2008), 270.
• [6] BAE S.K, KIM Y.K., LEE Y.B., XU X., PARK J.S., ZHENG Y., BALAKRISHNAN J., LEI T., HONG H.R., LIJIMA S., J. Nat. Nanotech., 5(8) (2010), 574.
• [7] HUANG B., LI Z.Y., LIU Z.R., ZHOU Z., HAO S.G., WU J., GU B.L., DUAN W.H., J. Carbon, 48(5) (2010), 1686.
• [8] UBBELOHDE A.R., LEWIS F.A., Graphite and its crystal compounds, Claredon Press Oxford (1960) 217.
• [9] HUMMERS W.S., OFFEMAN R.E.H., J. Am Chem. Soc., 80(6) (1958), 1339.
• [10] DIDEYKIN A., ALEKSENSKIY A.E., KIRILENKO D., BRUNKOV P., GOSSCHAROV V., BAIDAKOVA M., SAKSEEV D., VUL A.Y., Diamond Relat Mater., 20 (2011), 105.
• [11] HOU C., ZHANG Q., ZHN M., LI Y., WANG H., J. Carbon, 49 (2011), 47.
• [12] TITELMAN G.I., GELMAN V., BRON S., KHALFIN R.L., COHEN Y., BIANCO-PELED H., J. Carbon, 43(3) (2005), 641.
• [13] SZABO T., TOMBACZ E., ILLES E., DEKANY I., J. Carbon, 44(3) (2006), 537.
• [14] STANKOVICH S., PINER R.D., CHEN X., WU N., NGUYEN S.T., RUOFF R.S., J. Mater. Chem., 16(2) (2006), 155.
• [15] STANKOVICH S., PINER R.D., NGUYEN S.T., RUOFF R.S., J. Carbon, 44(15) (2006), 3342–3347.
• [16] MEYER J.C., GEIM A.K., KATSNELSON M.I., BOOTH T.J.,Nat., 446 (2007), 60.
• [17] KUDIN K.N., OZBAS B., SCHNIEPP H.C., PRUDHOMME R.K., AKSAY I.A., CAR R., Nano. Lett., 8 (2008), 36.
• [18] MCALLISTER M.J., LI J.L., ADAMSON D.H.,SCHNIEPP H.C., ABDALA A.A., LIU J., HERRERAALONSO M., MILIUS D. L., CAR R., AKSAY I.A., Chem. Mater., 19 (2007), 4396.
• [19] YU Y., MA L.L., HUANG W.Y., DU F. P., YU J.C., YU J.G., J. Carbon, 43(3) (2005), 670.
• [20] PAN S., LIU X., WANG X., Mater. Charact., 62(11) (2011), 1094.
• [21] LAMBERT T.N., CHAVEZ C.A., HERNANDEZSANCHEZ B., LU P., BELL N.S., AMBROSINI A.,J. Phys. Chem., C 113 (2009), 19812.
• [22] STANKOVICH S., DIKIN D.A., PINER R.D., KOHLHAAS K.A., KLEINHAMMES A., JIA Y., WU Y., NGUYEN S.T., RUOFF R.S., J. Carbon, 45 (2007), 1558.