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Espen Flage-Larsen

Research Scientist

Espen Flage-Larsen

Research Scientist

Espen Flage-Larsen
Phone: 970 47 421
Department: Sustainable Energy Technology
Office: Oslo

Publications and responsibilities

Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1801750

The present work explores the concept of high-entropy alloys to design FeCoNi-based oxides suitable for functional applications. Fundamental changes in electronic behavior produced by metal substitution and variable oxygen content were screened to investigate the potential of these materials for spe...

Authors Jeyanthinath Mayandi Stange Marit Synnøve Sæverud Dahl Øystein Sunding Martin Fleissner Sagvolden Espen Flage-Larsen Espen Schrade Matthias Deuermeier J. Fortunato Elvira Diplas Spyridon Løvvik Ole Martin Finstad Terje Almeida Carvalho Patricia
Year 2020
Type Conference lecture and academic presentation
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1766634

This paper describes the application of neural network approaches to the discovery of new materials exhibiting thermoelectric properties. Thermoelectricity is the ability of a material to convert energy from heat to electricity. At present, only few materials are known to have this property to a deg...

Year 2019
Type Part of a book/report
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1593430

The band gap of semiconducting ZnO can be readily tuned through alloying it with other relevant oxides, such as CdO, consequently extending the performance of the corresponding materials and devices. In this context, one of the challenges is to establish the methodology for two-dimensional band gap ...

Authors Zhan Wei Prytz Øystein Kuznetsov Andrej Flage-Larsen Espen
Year 2018
Type Report/thesis
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1568840

One of the key limiting factors to progress within nano science is the ability to measure properties on the relevant length scale. The probe size provided by optical measurements is often larger than the individual nanoscale structures, and the resulting measurement is an average over some large vol...

Authors Prytz Øystein Flage-Larsen Espen Bilden Sindre Rannem
Year 2018
Type Report/thesis