Journal Papers

  • Ramli, A. A, Ismail A. K, Muhammad, R. & Hashim, M. F. (2022). A Mini-review of Recent Studies on Lead and Lead-free Perovskite Materials for Solar Cells Application and Their Issues. Jurnal Teknologi, 84(6), 135-146.
  • Rahim, N. A, Muhammad, R., Paiman, S, Jamaludin, S. N. Z, Ying, W. S & Earng, L. T. (2022), Electrical Conductivity Characterization of Zinc Oxide Seed Layer and Nanowire by Conductive Atomic Force Microscopy, Jurnal Fizik Malaysia, 43(1), 10018-10024.
  • Earng, L. T, Muhammad, R & Ying, W. S. (2022). Initial Stages of Yttria Stabilized Zirconia Nucleation: A Combined Experimental and Simulation Approach, Jurnal Fizik Malaysia. 43(1), 10131-10138.
  • N. F. M. Rahimi, S. T. Thirugnana, S. K. Goshal & R. Muhammad (2021). Varied layer thickness improves structural properties of YSZ thin film.  Journal of Nanomaterials Nanoengineering and Nanosystems. 236(1), 49. DOI: 10.1177/23977914211015854.  WoS.
  • N. A. Rusli, R. Muhammad, S. K. Goshal, H. Nur & N. Nayan (2020). Annealing temperature induced improved crystallinity of YSZ thin film.  Material Research Express. Vol 7, 056406. DOI : http://10.1088/2053-1591/ab9039
  • N. A. Rusli, R. Muhammad, S. K. Goshal, H. Nur, N. Nayan & S. N. Yasmin (2019). Bias voltage dependent structure and morphology evolution of magnetron sputtered YSZ thin film: A basic insight.  Material Research Express. Vol 6, 106414. DOI : 10.1088/2053-1591/ab3907.
  • M. S. A. Mohd Saidi, S. K. Goshal, R. Arifin, M. K. Roslan, R. Muhammad, W. N. W. Shamsuri, M. Abdullah & M. S. Shaharin (2018).  Spectroscopic properties of Dy3+ doped tellurite glass with Ag/TiO2 nanoparticles inclusion: Judd-Ofelt analysis.  Journal of Alloys and Compounds.  Vol 754, pg 171-183.
  • M. A. Khan, Y. Wahab, R. Muhammad, M. Tahir & S. Sakrani (2018).  Catalyst-free fabrication of novel ZnO/CuO core-Shell nanowires heterojunction: Controlled growth, structural and optoelectronic properties.  Applied Surface Science,  Vol 435, pg 718-732.https://doi.org/10.1016/j.apsusc.2017.11.071
  • N. A. Rusli, Z. Ibrahim, R. Muhammad, Y. Wahab & S. Sakrani (2018). Review: Development of Platinum Electrode for Low Temperature Solid Oxide Fuel Cells.  eProceedings Chemistry, eISSN 2550-1453, Vol 3, pg 5-8.
  • S. Y. Jaafar, Y. Wahab, R. Muhammad, Z. Othaman, S. Sakrani & Z. Ibrahim (2018).  The effect of RF-sputtering temperature of Yittria-Stabilized Zirconia nanostructure electrolyte for SOFC application.  Malaysian Journal of Catalysis,  Vol 3, pg 8-12.
  • R. Muhammad, Y. Wahab, Z. Ibrahim, K. Deraman, Z. Othaman & S. Sakrani (2017). Gallium Arsenide nanowires for electrode application in SOFC grown using MOCVD. International Journal of Hydrogen Energy, Vol 42 (14), IF: 3.205.
  • S. Deraman, R. Muhammad, W.N.W. Shamsuri (2017).  AFM and XRD Analysis of Lanthanum Strontium Cobalt Thin Film Fabricated Using Sol-Gel Dip Coating Method.  Journal of Science and Technology,  Vol 9, No 3, pg 60-64.
  • N. Hidayah, R. Muhammad, W.N.W. Shamsuri (2017).  Morphological and Electrical Characterization of Nickel Oxide-Ytrria Stabilized Zirconia Thin Film Prepared Using Sol-Gel Dip Coating Method.  Journal of Science and Technology,  Vol 9, No 3, pg 41-44.
  • S. Sakrani, N. Jamaludin, R. Muhammad, Y. Wahab, A. K. Ismail, S. Suhaimi & Y.H.Mohammed. (2016). Effect of gas flow rate on structural properties of zinc oxide nanowires grown by vapor-solid mechanism. AIP Conference Proceedings, Vol 1733(020040), doi: 10.1063/1.4948858 (Scopus).
  • R. Muhammad, Z. Othaman, Y. Wahab, Z. Ibrahim & S. Sakrani (2016). Influence of Substrate Orientation on the Structural Properties of GaAs Nanowires in MOCVD. AIP Conference Proceedings, Vol 1725(020049), doi: 10.1063/1.4945503 (Scopus).
  • M A Khan, S Sakrani, Y Wahab, S Suhaimi, R Muhammad (2015).  The Synthesis of Cuprous Oxide Nanowires in the Presence of Oxygen using a Hot Tube Thermal Evaporation Method.  Malaysian Journal of Fundamental and Applied Sciences. Vol 11, No 4, pg 174-178
  • R. Muhammad, Y. Wahab, Z. Othaman & S. Sakrani (2015). Current-Voltage Characterization of Gallium Arsenide Nanowires Using a Conductive Atomic Force Microscopy. Advanced Material Research, Vol 1109, p 239-242, doi: 10.4028/www.scientific.net/AMR.1109.238 (Scopus).2015-AMR.1109.238
  • M A Khan, S Sakrani, Y Wahab, S Suhaimi & R. Muhammad (2014), Synthesis of Cu2O and ZnO and their Heterojunction Nanowires by Thermal Evaporation: A Short Review. Jurnal Teknologi, Vol 71(5) (Scopus), p 83-88.
  • R. Muhammad, R. Ahamad, Z. Ibrahim & Z. Othaman (2014). Structure and Electrical Characterization of Gallium Arsenide Nanowires with different V/III ratio growth parameters. AIP Conference Proceedings, Vol 1588, p 257-260, doi: 10.1063/1.4866956 (Scopus).
  • R. Muhammad, Y. Wahab, Z. Ibrahim, Z. Othaman, S. Sakrani & R. Ahamad (2014). The Effect of V/III Ratio on the Crystal Structure of Gallium Arsenide Nanowires. Advanced Materials Research, Vol 895, p 539-546. (Scopus).
  • Rosnita M., Zulkafli O., Samsudi S., Yussof W. and Zuhairi I. The Electrical Conductivity of GaAs nanowires by Conductive Atomic Force Microscopy. Journal of Crystal Growth. (Web of Science). Impact Factor : 1.730 (in review progress)
  • Rosnita M., Zulkafli O., Zuhairi I., Samsudi S., Yussof W. (2012). The Initial Stages of GaAs/Au Eutectic Alloy Formation for the Growth of GaAs Nanowires. Sains Malaysiana, Vol 41, Issue 9, p 1137-1143, (Web of Science). Impact Factor = 0.408.
  • Edy Wibowo, Zulkafli Othaman, Samsudi Sakrani, A S Ameruddin, D Aryanto, R. Muhammad, Imam Sumpono. (2011). Morphology and Chemical Composition of InxGa1-xAs NWs Au-assisted Grown at Low Growth Temperature Using MOCVD. Journal of Applied Sciences. (Scopus). Vol 11 (7), p 1315-1320.
  • Rosnita M., Zulkafli O., Samsudi S. and Yussof W. (2010). The effect of annealing process on the colloidal gold and GaAs nanowires. AIP Proceeding. Vol 1250. p 377-380. (Web of Science).
  • Zulkafli O, Samsudi S, Amira S. Ameruddin, Didik A, Rosnita M, Imam Sumpono and Habib Hamidinezhad. (2010). Morphological evolution of ternary InxGa1-xAs nanowires (NWs) grown with Au-particle assisted using vertical chamber MOCVD. Journal of Fundamental Science. Vol 6 (2).
  • Rosnita M., Zulkafli O., Yussof W. and Samsudi S. (2009). Gallium arsenide nanowires formed by Au-assisted MOCVD: Effect of growth temperature. Modern Applied Science. Vol 3(7) p 73-77.
  • Rosnita M., Zulkafli O., Yussof W. and Samsudi S. (2009). Morphological and Electrical characterisation of GaAs nanowires. AIP Proceeding. Vol 1150. p 344-347. (Web of Science).
  • Rosnita M., Zulkafli O., Samsudi S., Yussof W., Ahmad Radzi M. I., Imam S. and Edy Wibowo. (2009). Growth rate of Gallium Arsenide Nanowires. Proceeding of International Conference Regional Annual Fundamental Science Seminar. Vol II. p 75-79.
  • Rosnita M., Zulkafli O., Yussof W. and Samsudi S. (2009). Epitaxial Method of Quantum Devices Growth. JurnalFizik. Vol 4. p 1-9.
  • Rosnita M., Zulkafli O., Yussof W. and Samsudi S. (2008). InAs/GaAs quantum dots grown by metal-organic chemical vapor deposition at different temperature. Modern Applied Science. Vol2 (3). p 70-74.
  • Muhammad, Z. Othaman, Y. Wahab, L. K. Boo & S. Roslan (2008 ). Effect of Growth Temperature on InAs/GaAs Quantum Dots Grown by MOCVD. Solid State Science & Technology Letters. Vol 15 (2). P 150-155.
  • Rosnita M., Zulkafli O., Samsudi S. and Yussof W. (2008). Vapour-liquid-solid mechanism using gold colloid for the growth of GaAs nanowires. Journal of Fundamental Science, Vol 4, p 363.
  • Rosnita M., Zulkafli O., Yussof W. and Samsudi S. (2008). Epitaxial GaAs nanowires grown on GaAs substrate using VLS mechanism. Jurnal Fizik. Vol 3, p 52
  • Zulkafli Othaman, Kheng Boo Lim, Samsudi Sakrani, Rosnita Muhammad (2008). The Stranski-Krastanov three dimensional island growth prediction on finite size model. JurnalFizik. Vol 3, p 1-5.
  • Shahrizar Roslan, Zulkafli Othaman, Rosnita Muhammad, Lim Kheng Boo. Growth Parameters of InAs/GaAS quantum dots grown by MOVPE (2006). Jurnal Fizik. Vol 1. p 1-6.
  • Lau Chen Chen, B. Ismail, M. N. Yusuf and R. Muhammad. Electronic Conduction Processes in Amorphous Silicon-Carbon Alloy (a-Si:C:H) Thin Films Prepared by RF Magnetron Sputtering (2005).   Solid State Science and Technology. Vol 13, No 1 & 2. P 11-16.