Mallory Miller

R&D Manager at Moses Lake Industries
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Contact Information
us****@****om
(386) 825-5501
Languages
  • English -
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Credentials

  • PhD
    -
    Dec, 2016
    - Nov, 2024

Experience

  • Moses Lake Industries
    • United States
    • Semiconductors
    • 100 - 200 Employee
    • R&D Manager
      • Sep 2019 - Present

      -Oversee research initiatives for additive development for alternative metal electrodeposition with direct supervision of research chemist-Maintain regular contact with customers, providing support and technical assistance

    • Research Scientist
      • Jan 2017 - Sep 2019

      -Electrochemical research supporting the semiconductor industry with a focus on copper and cobalt damascene

  • Case Western Reserve University
    • United States
    • Higher Education
    • 700 & Above Employee
    • Student Researcher
      • Jul 2012 - Dec 2016

      -Researched redox flow batteries for grid-level energy storage applications -Focused on understanding reaction kinetics as well as electroplating in ionic liquid electrolytes -Researched redox flow batteries for grid-level energy storage applications -Focused on understanding reaction kinetics as well as electroplating in ionic liquid electrolytes

  • NSF IRES Research Program – Sustainable Energy for sub-Saharan Africa
    • University of Botswana
    • Student Researcher, Chemical and Mechanical Engineering Departments
      • Jun 2012 - Jul 2012

      -Worked with a team of students and professors from the University of Botswana to analyze selected plant oils indigenous to Botswana for biodiesel applications -Synthesized and tested various biodiesel blends derived from Morula (Sclerocarya birrea) and Morama (Tylosema esculentum) plant oils -Viscosity and energy content indicated that the blends may be used as a substitute in diesel engines, thus presenting an alternative to imported petroleum diesel -Worked with a team of students and professors from the University of Botswana to analyze selected plant oils indigenous to Botswana for biodiesel applications -Synthesized and tested various biodiesel blends derived from Morula (Sclerocarya birrea) and Morama (Tylosema esculentum) plant oils -Viscosity and energy content indicated that the blends may be used as a substitute in diesel engines, thus presenting an alternative to imported petroleum diesel

  • De Nora
    • Italy
    • Industrial Machinery Manufacturing
    • 700 & Above Employee
    • Cooperative Intern, R&D Division
      • Aug 2011 - Jan 2012

      Research in the area of brine electrolysis -Improved product quality and design (suggestions sent to DeNora Brazil to be implemented in there design) increased overall efficiency of the POSICLOR unit by 8% -Production of bromine via electrolysis Research in the area of brine electrolysis -Improved product quality and design (suggestions sent to DeNora Brazil to be implemented in there design) increased overall efficiency of the POSICLOR unit by 8% -Production of bromine via electrolysis

  • Technical University of Denmark, Environmental Engineering Department
    • Student Researcher
      • May 2011 - Aug 2011

      Researched the possibility of simultaneous CO2 capture and electricity generation in a novel microbial biogas upgrading cell (MBUC) Achievements: -Decreased overall carbon output by >92%, increased power output, increased biomass production by 79%, increased overall production of methane gas -Research in the process of being published Researched the possibility of simultaneous CO2 capture and electricity generation in a novel microbial biogas upgrading cell (MBUC) Achievements: -Decreased overall carbon output by >92%, increased power output, increased biomass production by 79%, increased overall production of methane gas -Research in the process of being published

  • NASA Glenn Research Center
    • United States
    • Aviation and Aerospace Component Manufacturing
    • 700 & Above Employee
    • Cooperative Intern, Fire Safety Research
      • Jan 2010 - Aug 2010

      • Tested and analyzed 50+ fire retardant materials for structure protection in the Wildland Urban Interface using a radiant cone heater. Calibrated and updated equipment to increase accuracy of results. • Participated in a prescribed burn in Pinelands, NJ, in compliance with the New Jersey Forest Fire Service, to further investigate the most effective materials that will reduce damage from forest fires. • Presented research at Case Western Reserve University’s research showcase April 15, 2010.

Education

  • Case Western Reserve University
    Doctor of Philosophy (PhD), Chemical and Biomolecular Engineering
    2013 - 2016
  • Case Western Reserve University
    Bachelor of Schience, Chemical Engineering
    2008 - 2013

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