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


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


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 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


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

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: ,