Подписаться
Maja Feierabend
Maja Feierabend
Подтвержден адрес электронной почты в домене chalmers.se
Название
Процитировано
Процитировано
Год
Dark excitons in transition metal dichalcogenides
E Malic, M Selig, M Feierabend, S Brem, D Christiansen, F Wendler, ...
Physical Review Materials 2 (1), 014002, 2018
2242018
Proposal for dark exciton based chemical sensors
M Feierabend, G Berghäuser, A Knorr, E Malic
Nature Communications 8, 2017
1082017
Impact of strain on the optical fingerprint of monolayer transition-metal dichalcogenides
M Feierabend, A Morlet, G Berghäuser, E Malic
Physical Review B 96 (4), 045425, 2017
682017
Impact of strain on the excitonic linewidth in transition metal dichalcogenides
Z Khatibi, M Feierabend, M Selig, S Brem, C Linderälv, P Erhart, E Malic
2D Materials 6 (1), 015015, 2018
662018
Dark exciton based strain sensing in tungsten-based transition metal dichalcogenides
M Feierabend, Z Khatibi, G Berghäuser, E Malic
Physical Review B 99 (19), 195454, 2019
312019
Brightening of spin-and momentum-dark excitons in transition metal dichalcogenides
M Feierabend, S Brem, A Ekman, E Malic
2D Materials 8 (1), 015013, 2020
242020
Optical fingerprint of bright and dark localized excitonic states in atomically thin 2D materials
M Feierabend, S Brem, E Malic
Physical Chemistry Chemical Physics 21 (47), 26077-26083, 2019
112019
Molecule signatures in photoluminescence spectra of transition metal dichalcogenides
M Feierabend, G Berghäuser, M Selig, S Brem, T Shegai, S Eigler, ...
Physical Review Materials 2 (1), 014004, 2018
112018
Disorder-induced broadening of excitonic resonances in transition metal dichalcogenides
M Dwedari, S Brem, M Feierabend, E Malic
Physical Review Materials 3 (7), 074004, 2019
42019
Optical Response From Functionalized Atomically Thin Nanomaterials
E Malic, G Berghäuser, M Feierabend, A Knorr
Annalen der Physik 529 (10), 1700097, 2017
32017
Optical fingerprint of non-covalently functionalized transition metal dichalcogenides
M Feierabend, E Malic, A Knorr, G Berghäuser
Journal of Physics: Condensed Matter 29 (38), 384003, 2017
32017
Out of the Dark and into the Light Microscopic Analysis of Bright, Dark and Trapped Excitons
M Feierabend
Chalmers Tekniska Hogskola (Sweden), 2018
12018
В данный момент система не может выполнить эту операцию. Повторите попытку позднее.
Статьи 1–12