TY - CONF KW - Carbon nanotubes; Chemical vapor deposition; Contact angle; Hydrophobicity; Iron; Nanocomposite films; Oil spills; Porous materials; Scanning electron microscopy KW - 3D graphene; Carbon nanotube composite films; Carbon nanotube hybrids; Chemical vapour deposition; Hybrid structure; Hydrophobics; Nickel foam; Oil absorption; Oil spill cleanup; Vapor-deposition techniques KW - Graphene TI - Highly hydrophobic 3D graphene-carbon nanotubes composite film for oil absorption ID - scholars12057 SP - 1772 N1 - cited By 4; Conference of 2017 Conference on Biomedical and Advanced Materials, Bio-CAM 2017 ; Conference Date: 28 November 2017 Through 29 November 2017; Conference Code:151551 N2 - Three-dimensional (3D) graphene-carbon nanotubes (G-CNT) hybrid structure is developed using chemical vapour deposition (CVD) technique to be used as an oil absorption film. The 3D graphene was first grown on nickel foam followed by deposition of iron using electrochemical technique. The iron act as catalyst for the subsequent growth of carbon nanotubes (CNT). Scanning electron microscope analysis shows uniform dispersion of CNT throughout the 3D-graphene nanostructure. Raman spectrum shows formation of ordered sp2 graphitic carbon, in this case graphene and CNT. The presence of D-band at 1313 cm-1 indicates the presence of CNT. The contact angle of G-CNT shown improvement in hydrophobicity as compared to just bare graphene from 110° to 148°. This is mainly due to surface of bare graphene is significantly roughen by the presence of CNT. Furthermore, a simple oil absorption test on G-CNT shows excellent absorption capacity up to 51 times of its own weight. © 2019 Elsevier Ltd. All rights reserved. AV - none VL - 16 EP - 1777 UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85072382980&doi=10.1016%2fj.matpr.2019.06.048&partnerID=40&md5=fbbf18bbcfeac9e17a7f6a5490fbc920 A1 - Ong, C.C. A1 - Mohamed Saheed, M.S. A1 - Mohamed, N.M. A1 - Mohamed Saheed, M.S. SN - 22147853 PB - Elsevier Ltd Y1 - 2019/// ER -