Amgad Ahmed
Postdoctoral Research Fellow at National Institutes for Quantum Science and Technology (QST)- Claim this Profile
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Arabic Native or bilingual proficiency
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English Full professional proficiency
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French Elementary proficiency
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Italian Elementary proficiency
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Bahasa Melayu Limited working proficiency
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Chinese Elementary proficiency
Topline Score
Bio
Experience
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National Institutes for Quantum Science and Technology (QST)
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Japan
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Research
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1 - 100 Employee
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Postdoctoral Research Fellow
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Dec 2020 - Present
Conducting research at Takasaki Advanced Radiation Research Institute (TARRI) under project of Advanced Functional Polymer Materials at the department of advanced functional materials research. I mainly work on optimization of radiation induced grafting process, and using machine learning approaches to enable accurate and precise predictions of grafting outcomes. I also, use deep learning techniques for prediction and generation of topographic images mimicking AFM and SEM images to be used as modern tool for characterization. Coupled stochastic Bayesian optimization and, Gaussian processes were integrated with experimental design to model and optimize the grafting process. The results of the study enable raising the grafting yield from 50% to 204% during modelling stage and 240% after optimization with only 4% margin of error. Show less
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MALAYSIA-JAPAN INTERNATIONAL INSTITUTE OF TECHNOLOGY (MJIIT)
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Malaysia
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Education Administration Programs
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1 - 100 Employee
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Postdoctoral Research Fellow
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Jan 2017 - Jan 2018
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MALAYSIA-JAPAN INTERNATIONAL INSTITUTE OF TECHNOLOGY (MJIIT)
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Malaysia
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Education Administration Programs
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1 - 100 Employee
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Senior Research Fellow , Advanced Devices and Materials Engineering (ADME)
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Sep 2012 - Sep 2015
1.Design 2 Ultrasonic assisted pyrolysis reactors for fabrication of ZnO nanostructuers and graphene sheets. 2. Design process for deposition of ZnO nanowires onto graphene single layers from vapor phase. 3. Establish reaction mechanisms of growth of ZnO nanostructures deposited from gas phase via ALD process using Density functional theory . 1.Design 2 Ultrasonic assisted pyrolysis reactors for fabrication of ZnO nanostructuers and graphene sheets. 2. Design process for deposition of ZnO nanowires onto graphene single layers from vapor phase. 3. Establish reaction mechanisms of growth of ZnO nanostructures deposited from gas phase via ALD process using Density functional theory .
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Universiti Teknologi Malaysia
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Malaysia
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Higher Education
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700 & Above Employee
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Research Assistant
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Feb 2010 - May 2012
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Design manager assistant for technology
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2007 - 2009
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Education
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Universiti Teknologi Malaysia
Doctor of Philosophy (Ph.D.), Semiconductor Manufacturing Technology -
Universiti Teknologi Malaysia
Master’s Degree, Chemical Engineering -
Alexandria University
Bachelor’s Degree, Production engineering and manufacturing