Meryl Wiratmo

Research Assistant at UCF Department of Materials Science and Engineering
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Contact Information
us****@****om
(386) 825-5501
Location
فلوريدا Ourlandou الولايات المتحدة

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Credentials

  • Conflict Resolution Foundations
    LinkedIn
  • De-Escalating Intense Situations
    LinkedIn
  • Inclusive Leadership
    LinkedIn
  • Leading without Formal Authority
    LinkedIn

Experience

  • UCF Department of Materials Science and Engineering
    • United States
    • Higher Education
    • 1 - 100 Employee
    • Research Assistant
      • ‏يناير 2021 - - الحالي

      Project leader: Plasticization of Plant-based Waxes for Use in Transient Electronics- Using spray coating, dispersion, and pressing techniques to incorporate plant-based waxes into naturally sourced biopolymers. The purpose is to develop bioresorbable, flexible electronics with good moisture barrier properties.- Creating polymer composites to study interfacial adhesion of multi-layer films and to study their physical and materials properties including water vapor permeability, modulus, melting and glass transition temperatures, and biodegradation under normal and accelerated environmental conditions.- Responsible for all project components, including group meeting presentations.

  • Savannah River National Laboratory
    • United States
    • Research Services
    • 300 - 400 Employee
    • Summer Undergraduate Laboratory Internship - Self Healing Polymers
      • ‏مايو 2022 - ‏يوليو 2022

      - Developed two-step synthesis for epoxy-loaded poly(urea formaldehyde) microcapsules- Investigated effects of viscosity, reaction vessel/impeller size, poly(vinyl alcohol), and core/shell ratio on microcapsule size and morphology- Characterized microcapsules and evaluated the performance of self-healing polymeric coatings - Developed two-step synthesis for epoxy-loaded poly(urea formaldehyde) microcapsules- Investigated effects of viscosity, reaction vessel/impeller size, poly(vinyl alcohol), and core/shell ratio on microcapsule size and morphology- Characterized microcapsules and evaluated the performance of self-healing polymeric coatings

  • UCF College of Engineering & Computer Science
    • United States
    • Higher Education
    • 1 - 100 Employee
    • Teaching Assistant
      • ‏أغسطس 2020 - ‏ديسمبر 2021

      Course: Structures and Properties of Materials (EGN 3365)- Averaged 100 students per semester (>300 students total)- Promptly and accurately graded quizzes, exams, and homework assignments- Hosted office hours and answered student inquiries via email and GroupMe Course: Structures and Properties of Materials (EGN 3365)- Averaged 100 students per semester (>300 students total)- Promptly and accurately graded quizzes, exams, and homework assignments- Hosted office hours and answered student inquiries via email and GroupMe

  • UCF College of Health Professions and Sciences
    • United States
    • Higher Education
    • 1 - 100 Employee
    • Learning Assistant
      • ‏أغسطس 2020 - ‏مايو 2021

      Courses: Chemistry Fundamentals I and II (CHM 2045 and CHM 2046)- Led study sessions for ~50 total students across two semesters- Prepared instructional course content such as worksheets, presentations, or short videos- Utilized active learning techniques to assist students during in-person discussion sections or virtual study sessions Courses: Chemistry Fundamentals I and II (CHM 2045 and CHM 2046)- Led study sessions for ~50 total students across two semesters- Prepared instructional course content such as worksheets, presentations, or short videos- Utilized active learning techniques to assist students during in-person discussion sections or virtual study sessions

  • University of Central Florida
    • United States
    • Higher Education
    • 700 & Above Employee
    • Research Assistant
      • ‏أكتوبر 2018 - ‏ديسمبر 2020

      - Predicted crystal structures of three polymorphs using USPEX evolutionary algorithms and analyzed mechanical properties using CRYSTAL 17 software.- Designed novel organic chromophores with high hyperpolarizability for use in electro-optic thin film materials. - Predicted crystal structures of three polymorphs using USPEX evolutionary algorithms and analyzed mechanical properties using CRYSTAL 17 software.- Designed novel organic chromophores with high hyperpolarizability for use in electro-optic thin film materials.

  • Huey Magoo's LLC
    • Restaurants
    • 1 - 100 Employee
    • Team Member
      • ‏يونيو 2019 - ‏مارس 2020

      Provided excellent customer service, quality food items, and promoted Huey Magoo’s services and products Provided excellent customer service, quality food items, and promoted Huey Magoo’s services and products

Education

  • University of Central Florida
    Bachelor's degree, Materials Science and Engineering
    2018 - 2023

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