Avatar of M.Hussnain akmal.
M.Hussnain akmal
Passionate Ph.D. Chemical Engineer dedicated to advancing scientific knowledge and exploring breakthroughs in the field of nanotechnology employing novel atmospheric pressure plasma. Seeking to leverage expertise in research and innovation to drive efficiencies and make a meaningful impact within a collaborative and dynamic organizational setting.
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M.Hussnain akmal

Passionate Ph.D. Chemical Engineer dedicated to advancing scientific knowledge and exploring breakthroughs in the field of nanotechnology employing novel atmospheric pressure plasma. Seeking to leverage expertise in research and innovation to drive efficiencies and make a meaningful impact within a collaborative and dynamic organizational setting.
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Department of Chemical Engineering National Taiwan University of Science and Technology
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National Taiwan University of Science and Technology
台灣

Professional Background

  • Current status
    Studying
    Open to opportunities
  • Profession
    Chemical Engineer
    Other
  • Fields
    Chemicals
    Material Science
    Nanotechnology
  • Work experience
    Less than 1 year (Less than 1 year relevant)
  • Management
  • Skills
    • Microplasma Processing • Controlled Nanomaterials Synthesis • In Situ Diagnostics • Optical Emission Spectroscopy • Density Functional Theory • Photoluminescence based Temperature Sensing • Ex Situ Data Analysis (UV
    PL
    Raman
    TEM
    XRD
    XPS) • Project management
  • Languages
    English
    Fluent
  • Highest level of education

Job search preferences

  • Desired job type
    Not interested in working remotely
  • Desired positions
    Researcher
  • Desired work locations
  • Freelance

Work Experience

Ph.D. Scholar

Apr 2022 - Present
Daan District, Taipei City, Taiwan
Investigation of growth mechanism of plasma derived carbon quantum materials to improve material properties. • Utilization of renewable bioresources for enhanced synthesis sustainability • Employ ethanol for carbon nanocomposite (sp2/sp3) with both graphene like and diamond like properties • Develop photoluminescence-based temperature sensing for efficient temperature monitoring • Utilize In-situ Optical Emission and Absorbance Spectroscopy analysis to study the plasma behavior for various synthesis conditions, optimizing synthesis process • Establish an effective correlation between In- situ diagnostics and ex-situ measurements to predict the synthesis outcomes.

Lecturer

Aug 2015 - Mar 2022
6 yrs 8 mos
Nārowāl District, Punjab, Pakistan
• Instructed core subjects in undergraduation physics such as Quantum Mechanics, Electrodynamics, and Thermodynamics to enhance understanding of complex physical concepts • Designed and implemented problem solving strategies for complex physical problem to enhance analytical skill

Education

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Doctor of Philosophy (PhD)
Chemical Engineering
2022 - 2025
Description
• Synthesis of Advanced Carbon Quantum Materials (i.e., Graphene Quantum Dots & Nanodiamonds) using Atmospheric Pressure DC Ar Microplama with Liquid Electrode • Understanding the Carbon nanomaterials phase tuning (sp2/sp3) via synthesis parameters
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Master’s Degree
Physics
2013 - 2015
Description
• Study of Atmospheric Pressure Microplasma for the Synthesis of Fe/Ni Alloy Nanoparticles