Marielena Velasco Enriquez

Co Head Nanotechnology at REPU
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Contact Information
us****@****om
(386) 825-5501
Location
Dresden, Saxony, Germany, DE
Languages
  • Inglés Professional working proficiency
  • Portugués Limited working proficiency
  • French Elementary proficiency

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Credentials

  • TOEFL iBT
    ETS
    Feb, 2021
    - Nov, 2024
  • TOEFL iBT
    Educational Testing Service (ETS)
    Nov, 2018
    - Nov, 2024

Experience

  • REPU
    • Peru
    • Research Services
    • 1 - 100 Employee
    • Co Head Nanotechnology
      • Oct 2022 - Present

      Research Experience for Peruvian Undergraduates (REPU) lead by Peruvian STEM graduate students and professionals aims to train the next generation of Peruvian STEM professionals by settling a 3-month internship in well-renowned universities in US and Europe. As co-head of the nanotechnology branch, I work in the recruitment of volunteers for admissions, interview candidates and contact mentors/lab hosts to settle the 3-month internship. Also, I mentor alumni from different branches into their incoming applications to graduate studies. Show less

  • Dresden Integrated Center for Applied Physics and Photonic Materials (IAPP) TU Dresden
    • Germany
    • Research
    • 1 - 100 Employee
    • MSc Student Researcher
      • Nov 2022 - Present

      Control doping of Organic Electrochemical Transistors (OECTs) to tune threshold voltage - Exploring methods to dope semiconducting polymer p(g3T2‑T) and characterizing its doping levels using UV‑VIS spectroscopy and UPS. - Defining photolitography protocols to fabricate Organic Electrochemical Transistors (OECTs) with p(g3T2‑T) at different doping levels, and solid‑state electrolyte (SSE). - Measuring transfer characteristics and calculating threshold voltage shift of OECTs. Control doping of Organic Electrochemical Transistors (OECTs) to tune threshold voltage - Exploring methods to dope semiconducting polymer p(g3T2‑T) and characterizing its doping levels using UV‑VIS spectroscopy and UPS. - Defining photolitography protocols to fabricate Organic Electrochemical Transistors (OECTs) with p(g3T2‑T) at different doping levels, and solid‑state electrolyte (SSE). - Measuring transfer characteristics and calculating threshold voltage shift of OECTs.

  • AGP eGlass
    • Belgium
    • Glass Product Manufacturing
    • 700 & Above Employee
    • R&D Engineer
      • May 2019 - Jul 2021

      - Thermal management simulations to calculate ‘specialty glasses’ impact on vehicles inside temperature - Supervised and managed thermal experiments, based on ASHRAE and ISO standards or scientific literature - Designed and analyzed solar radiation tests for new interlayer materials according to ISO-standards or scientific literature - Benchmarking material suppliers for different projects and competitors' trend technologies. - Thermal management simulations to calculate ‘specialty glasses’ impact on vehicles inside temperature - Supervised and managed thermal experiments, based on ASHRAE and ISO standards or scientific literature - Designed and analyzed solar radiation tests for new interlayer materials according to ISO-standards or scientific literature - Benchmarking material suppliers for different projects and competitors' trend technologies.

  • National University of Engineering
    • Peru
    • Higher Education
    • 700 & Above Employee
    • Research Assistant
      • Sep 2017 - Nov 2018

      - Wrote and co-wrote scientific proposals for research grants. Funding agencies: Peruvian national science foundation and National University of Engineering - Synthesized nanocomposites of reduced graphene oxide, and silver nanorods onto PET - Characterized nanocomposite using: UV-Vis spectroscopy, Scanning Electron Microscope, Energy Dispersive Spectroscopy, Raman spectroscopy, and X-Ray diffraction - Wrote and co-wrote scientific proposals for research grants. Funding agencies: Peruvian national science foundation and National University of Engineering - Synthesized nanocomposites of reduced graphene oxide, and silver nanorods onto PET - Characterized nanocomposite using: UV-Vis spectroscopy, Scanning Electron Microscope, Energy Dispersive Spectroscopy, Raman spectroscopy, and X-Ray diffraction

  • General Atomics
    • United States
    • Defense and Space Manufacturing
    • 700 & Above Employee
    • Research Intern
      • Apr 2018 - Jul 2018

      As part of the REPU Physics 2018 program, I was working on the Miniature Arc Chamber Experiment (MACE), a table-top ion source, scaled from the Neutral Beam Injector source of the Tokamak, to study the electrical breakdown during Helium operation. - Designed CAD and assembled holders that supported Langmuir probes - Implemented new electrical components to a miniature arc chamber for DIII-D Tokamak Neutral Beam Injectors - Developed Python algorithms that enabled remote control of panel instruments of new diagnostics - Upgraded Graphic Unit Interface to display real-time data and analysis of all new diagnostics Show less

  • UTEC - Universidad de Ingeniería y Tecnología
    • Peru
    • Higher Education
    • 400 - 500 Employee
    • Research Assistant
      • Nov 2015 - Dec 2016

      - Became a member of MaBLab Soft Robotics team, worked in collaborative project with Harvard University Soft Robotics Toolkit team. - Conducted a soft robotics workshop for high school students and UTEC freshmen in Peru - Co-wrote project proposal: “Using soft devices to enhance compliance between human and prosthesis”. - Became a member of MaBLab Soft Robotics team, worked in collaborative project with Harvard University Soft Robotics Toolkit team. - Conducted a soft robotics workshop for high school students and UTEC freshmen in Peru - Co-wrote project proposal: “Using soft devices to enhance compliance between human and prosthesis”.

  • Harvard John A. Paulson School of Engineering and Applied Sciences
    • United States
    • Higher Education
    • 300 - 400 Employee
    • Student Intern
      • Jan 2016 - Jul 2016

      - Developed new manufacturing methods for soft robots by implementing a frugal science scheme: low-cost elastomers and conventional materials (e.g. cardboard, tape, silicone guns). - Organized workshops for K-12 students, Harvard undergraduates, and educational instructors (ASEE) - Upgraded the documentation on the Soft Robotics Toolkit website with new designs - Developed new manufacturing methods for soft robots by implementing a frugal science scheme: low-cost elastomers and conventional materials (e.g. cardboard, tape, silicone guns). - Organized workshops for K-12 students, Harvard undergraduates, and educational instructors (ASEE) - Upgraded the documentation on the Soft Robotics Toolkit website with new designs

Education

  • Technische Universität Dresden
    Erasmus Mundus Master of Nanoscience and Nanotechnology
    2022 - 2023
  • KU Leuven
    Erasmus Mundus Master of Nanoscience and Nanotechnology
    2021 - 2022
  • National University of Engineering
    Engineering Physics, Nanomaterials
    2011 - 2017

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