Raptakis

ORCID Google Scholar Scopus Linkedin ResearchGate publons

Antonis Raptakis

former PhD student

Stay period:Nov. 5, 2018 - March 17, 2022
Phone: +4935146331449
Room: HAL 107
Group: computational materials science and theoretical nanophysics
Download contact:

Antonis carried out his bachelor studies at the Physics Department in University of Crete (Heraklion, Greece) from 2009 to 2014. Then, he achieved the Diploma in Physics and entered directly at the postgraduate programme of Materials Science and Technology Department in the same University. As member of Materials Theory group, he obtained the Master of Science (M.Sc) in Materials Science and Technology in November 2016. In his Master thesis, supervised by Ass. Prof. Dr. Remediakis Ioannis, he studied the surface-localized electronic states of metals and determined characteristic properties of Schockley surface states for Au and Cu slabs, by using Density Functional Theory (DFT). In November 2018, he joined the group of Prof. Gianaurelio Cuniberti as a PhD student in cooperation with the International Max Planck Research School (IMPRS). In Dresden, Antonis plans to work on charge transport effeciency modelling in materials.




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Raptakis

ORCID Google Scholar Scopus Linkedin ResearchGate publons

Antonis Raptakis

former PhD student

Stay period:Nov. 5, 2018 - March 17, 2022
Phone: +4935146331449
Room: HAL 107
Group: computational materials science and theoretical nanophysics
Download contact:

Antonis carried out his bachelor studies at the Physics Department in University of Crete (Heraklion, Greece) from 2009 to 2014. Then, he achieved the Diploma in Physics and entered directly at the postgraduate programme of Materials Science and Technology Department in the same University. As member of Materials Theory group, he obtained the Master of Science (M.Sc) in Materials Science and Technology in November 2016. In his Master thesis, supervised by Ass. Prof. Dr. Remediakis Ioannis, he studied the surface-localized electronic states of metals and determined characteristic properties of Schockley surface states for Au and Cu slabs, by using Density Functional Theory (DFT). In November 2018, he joined the group of Prof. Gianaurelio Cuniberti as a PhD student in cooperation with the International Max Planck Research School (IMPRS). In Dresden, Antonis plans to work on charge transport effeciency modelling in materials.




Publications


News