Items where Author is "Hidayah, N.M.S."
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Hidayah, N.M.S. and Liu, W.-W. and Khe, C.S. and Lai, C.W. and Noriman, N.Z. (2020) Roles of linear alkyl chain alkylation on reinforcement of graphene based polypropylene nanocomposites. Materials Today Communications, 22. ISSN 23524928
Lee, H.C. and Liu, W.-W. and Chai, S.-P. and Mohamed, A.R. and Aziz, A. and Khe, C.-S. and Hidayah, N.M.S. and Hashim, U. (2017) Review of the synthesis, transfer, characterization and growth mechanisms of single and multilayer graphene. RSC Advances, 7 (26). pp. 15644-15693. ISSN 20462069
Conference or Workshop Item
Hidayah, N.M.S. and Liu, W.W. and Khe, C.S. and Lai, C.W. and Noriman, N.Z. and Hashim, U. (2019) Synthesis and characterization of alkylated graphene oxide (AGO) and reduced graphene oxide (ARGO). In: UNSPECIFIED.
Cheong, M.-F. and Liu, W.-W. and Khe, C.-S. and Hidayah, N.M.S. and Lee, H.C. and Teoh, Y.-P. and Foo, K.L. and Voon, C.H. and Zaaba, N.I. and Adelyn, P.Y.P. (2018) Green synthesis of reduced graphene oxide decorated with iron oxide nanoparticles using Oolong Tea extract. In: UNSPECIFIED.
Tai, M.J.-Y. and Liu, W.-W. and Khe, C.-S. and Hidayah, N.M.S. and Teoh, Y.-P. and Voon, C.H. and Lee, H.C. and Adelyn, P.Y.P. (2018) Green synthesis of reduced graphene oxide using green tea extract. In: UNSPECIFIED.
Nazri, S.R.B. and Liu, W.-W. and Khe, C.-S. and Hidayah, N.M.S. and Teoh, Y.-P. and Voon, C.H. and Lee, H.C. and Adelyn, P.Y.P. (2018) Synthesis, characterization and study of graphene oxide. In: UNSPECIFIED.
Hidayah, N.M.S. and Liu, W.-W. and Lai, C.-W. and Noriman, N.Z. and Khe, C.-S. and Hashim, U. and Lee, H.C. (2017) Comparison on graphite, graphene oxide and reduced graphene oxide: Synthesis and characterization. In: UNSPECIFIED.
Lee, H.C. and Liu, W.-W. and Chai, S.-P. and Mohamed, A.R. and Voon, C.H. and Hashim, U. and Arshad, M.K.M. and Adelyn, P.Y.P. and Huda, A.R.N. and Kahar, S.M. and Hidayah, N.M.S. and Lai, C.W. and Khe, C.-S. (2017) The Impact of Reaction Parameters on Graphene-like Material Synthesized Using Chemical Vapour Deposition. In: UNSPECIFIED.