Rare Earth Doped Metal-Oxide-Semiconductor Structures: A Promising Material System or a Dead End of Optoelectronic Evolution?

Rebohle, L.; Berencén, Y.; Braun, M.; Garrido, B.; Hiller, D.; Liu, B.; Ramírez, J. M.; Sun, J. M.; Wutzler, R.; Helm, M.; Skorupa, W.

Rare Earth Doped Metal-Oxide-Semiconductor Structures: A Promising Material System or a Dead End of Optoelectronic Evolution?

Rebohle, L.; Berencén, Y.; Braun, M.; Garrido, B.; Hiller, D.; Liu, B.; Ramírez, J. M.; Sun, J. M.; Wutzler, R.; Helm, M.; Skorupa, W.

The suitability of rare earth doped metal-oxide-semiconductor structures for optoelectronic applications is investigated. To do so, several Tb- and Er-doped devices with different designs and fabricated by different methods are compared among each other with respect to their electroluminescence (EL) properties. In detail, the investigated devices show EL power efficiencies between 2×10-4 and 2×10-3 which, taken individually for Tb and Er, have a linear dependence on the EL decay time for low and medium injection current densities. The excited fraction of Er ions is significantly higher than that of Tb ions and achieves a maximum value of 50% (with a maximum uncertainty factor of 2.25) under optimum conditions.

Keywords: Electroluminescence; rare earth; MOS structure; decay time

Involved research facilities

Ion Beam Center DOI: 10.17815/jlsrf-3-159

Related publications

DOI: 10.17815/jlsrf-3-159 is cited by this (Id 20052) publication

Invited lecture (Conferences)
225th ECS Meeting, 11.-15.05.2014, Orlando, United States
Contribution to proceedings
225th ECS Meeting, 11.-15.05.2014, Orlando, United States
Nanoscale Luminescent Materials 3: Electrochemical Society (ECS), 978-1-60768-520-3, 175-185
DOI: 10.1149/06105.0175ecst
Cited 7 times in Scopus

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