Staff Directory


Mohd Lukman Bin Inche Ibrahim

Academic Qualification

  • DOCTOR OF PHILOSOPHY IN PHYSICS (NUCLEAR PHYSICS) - Doctor of Philosophy, Universiti Malaya (UM)
  • Master of Engineering with Second Class Honours (Upper Division) - Masters Degree, Imperial College of Science, Technology and Medicine

Mohd Lukman Bin Inche Ibrahim (Assoc. Prof. Dr.)

Associate Professor
IIUM Gombak Campus

KULLIYYAH OF ENGINEERING


lukmanibrahim@iium.edu.my
4460


Area of Specialisation


  • Engineering Tech ~ Engineering And Technology ~ Electrical and Electronic Engineering ~ Device Physics - Solar cells
  • Natural Science ~ Physical Sciences ~ Condensed Matter Physics ~ Low Dimensional Physics - Semiconductor devices (solar cells)
  • Natural Science ~ Physical Sciences ~ Theoretical and Computational Physics ~ Condensed Matter - Semiconductor physics
  • Natural Science ~ Nuclear Sciences ~ Nuclear Fundamental ~ Nuclear Reaction and Scattering - low energy nuclear reactions
  • Natural Science ~ Physical Sciences ~ Condensed Matter Physics ~ Semiconductor Materials and Devices - Charge transport in semiconductor


Teaching Responsibilities


ENGINEERING ETHICS FROM ISLAMIC PERSPECTIVE 2017/2018 2016/2017
ENGINEERING ETHICS SAFETY AND ENVIRONMENT 2017/2018 2016/2017 2015/2016
ENGINEERING MATHEMATICS 2 2023/2024 2022/2023 2021/2022
ENGINEERING MATHEMATICS II 2023/2024 2022/2023 2020/2021 2019/2020 2018/2019 2017/2018
PARTIAL DIFFERENTIAL EQUATIONS 2017/2018 2016/2017 2015/2016
VALUES, TECHNOLOGY AND SOCIETY 2021/2022
VALUES, TECHNOLOGY AND SOCIETY (RESEARCH MODE) 2021/2022


Supervision


Development Of Polylacriylamid-Co-Acrylic Acid, Sodium Carboxyl Methyl Cellulose (Na-Cnc)/ Sodium Sulphid (Na2s) Polymer Electrolyte For Photovoltaic Applications.
Ph.D Completed 2022 Co-supervisor
Influence Of Light Absorption Profile On The Performance Of Organic Photovoltaics Cell Using Analytical Drift Diffusion Model.
Master Completed 2022 Main Supervisor
Influence Of Active Layer Thickness On The Performance Of Organic Photovoltaics With Light Trapping.
Master Completed 2020 Main Supervisor


Research Projects


Completed
2017 - 2020 Impacts of the photoactive layer's properties on the performance of organic solar cells and photodiodes based on a novel model
On-Going


Publications


Article

2023 A physics-based current–voltage model for organic solar cells using a combined analytical and regression approach. Applied Physics A: Materials Science and Processing, 129 (6) pp. 1-10
2022 An improved model for describing the net carrier recombination rate in semiconductor devices. Applied Physics A: Materials Science and Processing, 128 () pp. 1-11
2021 Influence of light absorption profile on the performance of organic photovoltaics. IIUM Engineering Journal, 22 (2) pp. 135-148
2019 Influence of active layer thickness on the performance of organic photovoltaics with light trapping. IEEE Transactions on Electron Devices, 66 (7) pp. 3124-3128
2018 An analytical model for organic solar cells incorporating non-geminate monomolecular and bimolecular recombinations. Semiconductor Science and Technology, 33 (12) pp.
2017 Dissociation of charge-transfer states at donor–acceptor interfaces of organic heterojunctions. Journal of Physics D: Applied Physics, 50 (6) pp. 1-9
2017 Inelastic electric and magnetic electron scattering form factors of 24Mg nucleus: Role of g factors. International Journal of Modern Physics E, 26 (5) pp. 1750032-1-1750032-18
2016 Criteria for validating polaron pair dissociation in polymer-fullerene bulk heterojunction solar cells. Journal of Applied Physics, 19 (15) pp. 1-8
2015 Analytical expression for the current-voltage characteristics of organic bulk heterojunction solar cells. AIP Advances, 5 (2) pp. 1-10
2014 Combined influence of carrier mobility and dielectric constant on the performance of organic bulk heterojunction solar cells. AIP Advances, 4 (5) pp. 057133-1
2013 Analysis of the nuclear potential for heavy-ion systems through large-angle quasi-elastic scattering. Physical Review C, 87 (2) pp. 024611-1
Conference or Workshop Item

2023 Modeling organic light emitting diodes: a comparison between the conventional and a new carrier recombination models. In: 6th International Conference on Mathematical Applications in Engineering,
2020 Comparison between the use of uniform and non-uniform light absorption profiles in modelling organic photovoltaics. In: 5th International Conference on Mathematical Applications in Engineering (ICMAE’19),
2020 The effect of injection barrier on the open-circuit voltage of organic photovoltaic cells. In: 4th Advanced Materials Conference 2018 (AMC 2018),
2018 Impact of donor-acceptor morphology on the charge carrier generation in organic photovoltaic devices. In: 4th International Conference on Mathematical Applications in Engineering 2017 (ICMAE'17),
Monograph

2020 Impacts of the photoactive layer's properties on the performance of organic solar cells and photodiodes based on a novel model. In: ,