Publications

Journal- ISI indexed

  • Hamzah, N., Mohd Yasin, M.F., Mohd Yusop, M. Z., Mohammad, M. A. S., Hassan, M.F. ,Tamrin, K.F., Effect of fuel and oxygen concentration toward catalyst encapsulation in water-assisted flame synthesis of carbon nanotubes, Combust. Flame. 220 :272–287, 2020 (Elsevier, IF 4.570)
  • Zainal, M.T., Mohd Yasin, M.F., Wan Ali, W.F.F. et al. Carbon precursor analysis for catalytic growth of carbon nanotube in flame synthesis based on semi-empirical approach. Carbon Lett., 2020 (Springer, IF 1.992)
  • Hamzah, N., Mohd Yasin, M. F., Mohd Yusop, M. Z., Saat, A., Subha, N. M. Growth region characterization of carbon nanotubes synthesis in heterogeneous flame environment with wire-based macro-image analysis. Diamond and Related Materials, 99, 107500, 2019 (Elsevier, IF 2.650)
  • Zainal, M.T. , Mohd Yasin, M.F. , Abdul Wahid, M., Mohd Sies, M., A Flame Structure Approach for Controlling Carbon Nanotube Growth in Flame Synthesis, Combust. Sci. Technol. 00 (2019) 1–17. (Taylor & Francis Inc, IF 1.730)
  • Ismail, E., Fauzi, F. B., Mohamed, M. A., Mohd Yasin, M. F., Abid, M. A., Yaacob, I. I., Ani, M. H. (2019). Kinetic studies of few-layer graphene grown by flame deposition from the perspective of gas composition and temperature. RSC Advances, 9(36), 21000-21008. (Royal Soc Chemistry, IF 3.119)
  • Mohd Yasin, M. F., Hamzah, N., Saat, A., Mohd Yusop, M. Z., Mohd Subha, N.A., Rapid production of carbon nanotubes: a review on advancement in growth control and morphology manipulations of flame synthesis. Journal of Materials Chemistry A 8(5):25144-25170, 2017 (Royal Soc Chemistry, IF 11.301)
  • Mohd Yasin, M. F., Zainal, M. T., Wahid, M. A., Investigation of the Coupled Effects of Temperature and Partial Pressure on Catalytic Growth of Carbon Nanotubes Using a Modified Growth Rate Model. Materials Research Express (3),105040, 2016. (IOP, IF 1.929)
  • Mohd Yasin, M.F., Chong, C.T, Cant, S., Hocghreb, S., Discrete Multicomponent Model for Biodiesel Spray Combustion Simulation. Fuel. 126(0):44-54, 2014. (Elservier, IF 5.578)

Journal – Scopus Indexed

  • Mohd Yasin, M. F., Khor, C.K., Saat, A., Wahid, M.A. Computational Study On Combustion And Emission Characteristic Of Piloted Flames By Varying Composition CO2 Of Simulated Biogas Jurnal Teknologi 7(79):89-95, 2017
  • Alwan, R. A., Wahid, M. A., Mohd Sies, M., Mohd Yasin, M. F., Effects of air entry of swirling flameless combustion in a low NOx burner. International Review of Mechanical engineering.10(2), 8794, 2016.
  • Zainal, M. T., Mohd Yasin, M. F. ., Abd Wahid, M., Optimizing Flame Synthesis Of Carbon Nanotubes: Experimental And Modelling Perspectives. Jurnal Teknologi. 78, 133-145, 2016
  • Alwan, R. A., Wahid, M. A., Mohd Yasin,M.F., et al., Effects of equivalence ratio on asymmetric vortex combustion in a Low NOx Burner. Int. Review of Mechanical Engineering. (5):476-483, 2015
  • Nor Azwadi, C.S., Mohd Yasin, M.F., Syahrullail, S., Virtual study of natural convection heat transfer in an inclined square cavity. Journal of Applied Science. 10(4):331-336, 2010.
  • Mohd Yasin, M.F., Chong, C.T, Cant, S., Hocghreb, S., Effects of the Biodiesel Fuel Physical Properties on the Swirl Stabilised Spray Combustion Characteristics. Accepted at SAE Powertrains, Fuels & Lubricants Meeting, Sweden, Sept 18-20, 2012.

Journal – Non Indexed

  • Zainal, M.T., Mohd Yasin, M.F., Hamzah, N., Towards Low Cost Synthesis of Carbon Nanotubes:Experimental and Modelling Studies of Flame Synthesis & Nanotech Malaysia, Kuala Lumpur, May18, 2018.
  • Mohd Yasin, M.F., Cant, S., Modelling of Biodiesel Spray Combustion. PhD Thesis Department of Engineering, University of Cambridge 2014.
  • Mohd Yasin, M. F. and Cant, S., Validation of a Benchmark Methanol Flame Using Open- FOAM. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences. 1(1), 7-16, 2016
  • Zainal, M.T., Mohd Yasin, M. F., Ira Irawan, M.A., Roslan, M.F., Hamzah, N., Mohd Yusop, M.Z., Investigation on the Deactivation of Cobalt and Iron Catalysts in Catalytic Growth of Carbon Nanotube Using a Growth Rate Model. Journal of Advanced Research in Materials Science 51(1):11-22, 2018