Isabel Álvarez-Martos
About
Isabel Álvarez-Martos is from Copenhagen, Capital Region of Denmark, Denmark. Isabel is currently CEO & Co-Founder at CELLUGY, located in Søborg Denmark. In Isabel's previous role as a Postdoctoral Researcher in Electrochemical Biosensors at Aarhus University, Isabel worked in Interdisciplinary Nanoscience Center (Aarhus University) until Jan 2018. Prior to joining Aarhus University, Isabel was a PhD student in Analytical Chemistry at Universidad de Oviedo and held the position of PhD student in Analytical Chemistry at Oviedo y alrededores, España. Prior to that, Isabel was a Research stay at Colorado State University, based in Colorado State University from Nov 2012 to Feb 2013.
You can find Isabel Alvarez Martos's email at finalscout.com. FinalScout is a professional database with business professional profiles and company profiles.
Isabel Álvarez-Martos's current jobs
We’re a Denmark-based company who’ve developed the groundbreaking platform technology EcoFLEXY that’s ready to revolutionise industries across the world with the force of nature. It allows companies to say goodbye to microplastics by replacing petrochemicals in their products without losing production momentum or performance.
Isabel Álvarez-Martos's past jobs
• Managed the daily operation and equipment of the laboratory. • Wrote and published 12 articles (9 as first author). • Participated in the EU open research data pilot program. • Active dissemination of the scientific results at 8 conferences, Falling Walls Lab and Book a Researcher. • Managed 2 EU projects under FP7 and H2020 programs, respectively. • Designed new surface modification protocols with enzymes, aptamers, polymers and nanostructures. • Developed miniaturized sensors for in-field and clinical applications.
• Wrote and published 4 articles (1 as first author) and 1 book chapter. • Disseminated the scientific results at 9 conferences (2 oral invited communications). • Developed new protocols for surface modification with polymers, ionic liquids and nanoparticles. • Designed and manufactured microfluidic devices with electrochemical detection. • Collaborated with the Organic Chemistry Department to synthesize and characterize (SEM, XPS, TGA...) new polymers. • Collaborated with the Physics Department and Institute of Materials to grow carbon nanotubes and assess their electrochemical performance.
Electrochemical detection of heavy metals with paper-based screen printed electrodes.