Experience

Brazilian Center for Research in Energy and Materials (CNPEM)

• Brazil
• Research Services
• 700 & Above Employee

• Technological Development Analist - Beamline Engineer

  • Jan 2019 - Present

  - User support, operation, alignment and maintenance of a x-ray diffraction beamline- Design and assembly scientific instrumentation for synchrotron beamline- Design of a bi-axial tensile device for in-situ thin-film studies with synchrotron techniques - Desing magnetic field growng device for magnetron sputtering system- Thermal simulation of copper braids for cryogenic cooling x-ray mirrors- UHV mirror mechanical system assembly

• Undergraduate Internship

  • Feb 2018 - Dec 2018

  Development scientific instrumentation based on permanent magnets to apply in-situ magnetic field for sputtering growth and synchrotron beamline



CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico

• Government Administration
• 700 & Above Employee

• Undergraduate Research Scholarship

  • Feb 2015 - Jul 2018

  In this undergraduate project, we studied the reversibility of AC susceptibility versus temperature measurements of amorphous MoGe superconductor thin films with square antidot lattice. To better understand the flux avalanches role in AC susceptibility measurements, we use magneto optical imaging technique to dynamically visualize flux penetration during an AC magnetic field cycle and compare with AC susceptibility measurements done in a SQUID magnetometer. In this undergraduate project, we studied the reversibility of AC susceptibility versus temperature measurements of amorphous MoGe superconductor thin films with square antidot lattice. To better understand the flux avalanches role in AC susceptibility measurements, we use magneto optical imaging technique to dynamically visualize flux penetration during an AC magnetic field cycle and compare with AC susceptibility measurements done in a SQUID magnetometer.



iGEM

• United States
• Biotechnology Research
• 100 - 200 Employee

• Mathematical Modeling of a natural repellent based on D-limonene for iGEM Competition.

  • Jan 2015 - Oct 2015

  Our team designed a natural repellent, manufactured with synthetic biology tools, which should be effective in combating diseases transmitted by insect vectors and it is less toxic than the commercial repellents based on DEET. I worked in the mathematical modeling group and help developed a model to estimate optimal polyethylene glycol and zinc chloride concentration and predict the repellent longevity. Our team designed a natural repellent, manufactured with synthetic biology tools, which should be effective in combating diseases transmitted by insect vectors and it is less toxic than the commercial repellents based on DEET. I worked in the mathematical modeling group and help developed a model to estimate optimal polyethylene glycol and zinc chloride concentration and predict the repellent longevity.