Experience

Departamento de Eletrónica Industrial da Universidade do Minho

• Portugal
• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• Bolseiro de Investigação

  • Feb 2023 - Present

  First Stage Researcher (R1) working on MSenOoc “Matriz de micro(bio)ssensores integrados num dispositivo orgão num chip para NANOterapia de cancro”, PTDC/EEI-EEE/2846/2021

• Bolseiro de Investigação

  • Apr 2022 - Jan 2023

  I am very glad to work on project “Cérebro-num-chip integrado com biosensores: uma plataforma pré-clínica para doenças neurológicas" Ref.: EXPL/EMD-EMD/0650/2021.

• Internship Trainee

  • Sep 2021 - Apr 2022



University of Twente

• Netherlands
• Research Services
• 700 & Above Employee

• Internship

  • Feb 2021 - Jul 2021



Transport Phenomena Research Center (ceft) - FEUP

• Porto, Portugal

• Trainee

  • Nov 2020 - Feb 2021



Departamento de Eletrónica Industrial da Universidade do Minho

• Portugal
• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• Bolsista de iniciação à investigação

  • Jul 2020 - Oct 2020

  Summer with science - i9MASKS: Development of a innovative polydimethylsiloxane (PDMS) mask for the protection of COVID-19 using new technologies. The main goal of the i9MASKS project is to improve our lives and our communication with others, by creating a transparent and breathable face mask. To this end, this project was based on the use of PDMS for the manufacture of masks, a transparent and biocompatible material, ideal for being in contact with the skin without causing allergies, providing… Show more Summer with science - i9MASKS: Development of a innovative polydimethylsiloxane (PDMS) mask for the protection of COVID-19 using new technologies. The main goal of the i9MASKS project is to improve our lives and our communication with others, by creating a transparent and breathable face mask. To this end, this project was based on the use of PDMS for the manufacture of masks, a transparent and biocompatible material, ideal for being in contact with the skin without causing allergies, providing the necessary transparency for people to recognize each other and to communicate. This approach is extremely favorable for the contact between healthcare professionals, between the healthcare professional and patients, between people, and special favorable for the voiceless and deaf people who resort to lip reading. Show less Summer with science - i9MASKS: Development of a innovative polydimethylsiloxane (PDMS) mask for the protection of COVID-19 using new technologies. The main goal of the i9MASKS project is to improve our lives and our communication with others, by creating a transparent and breathable face mask. To this end, this project was based on the use of PDMS for the manufacture of masks, a transparent and biocompatible material, ideal for being in contact with the skin without causing allergies, providing… Show more Summer with science - i9MASKS: Development of a innovative polydimethylsiloxane (PDMS) mask for the protection of COVID-19 using new technologies. The main goal of the i9MASKS project is to improve our lives and our communication with others, by creating a transparent and breathable face mask. To this end, this project was based on the use of PDMS for the manufacture of masks, a transparent and biocompatible material, ideal for being in contact with the skin without causing allergies, providing the necessary transparency for people to recognize each other and to communicate. This approach is extremely favorable for the contact between healthcare professionals, between the healthcare professional and patients, between people, and special favorable for the voiceless and deaf people who resort to lip reading. Show less



Departamento de Eletrónica Industrial da Universidade do Minho

• Portugal
• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• Student Internship

  • May 2019 - Jul 2019

  I worked at “Bifurcation angle effect on Red Blood Cells in lab-on-a-chip devices” where I analyzed the effect of bifurcation on hemodynamics in a Y-shaped microchannel, understand the influence of the bifurcation angle on the flow and on the deformability of RBCs, as well as the trajectories. During this work I acquired competences in the microfluidic area (velocity profile, flows), characterization using image microscopy, preparation of samples and image software (ImageJ). I worked at “Bifurcation angle effect on Red Blood Cells in lab-on-a-chip devices” where I analyzed the effect of bifurcation on hemodynamics in a Y-shaped microchannel, understand the influence of the bifurcation angle on the flow and on the deformability of RBCs, as well as the trajectories. During this work I acquired competences in the microfluidic area (velocity profile, flows), characterization using image microscopy, preparation of samples and image software (ImageJ).