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Mg Doping of N-Polar, In-Rich InAlN

Metal organic chemical vapor deposition was used to grow N-polar In(0.63)Al(0.37)N on sapphire substrates. P-doping was provided by a precursor flow of Cp(2)Mg between 0 and 130 nmol/min, reaching a Cp(2)Mg/III ratio of 8.3 × 10(−3). The grain structure of 360 nm thick InAlN was spoiled by pits afte...

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Detalles Bibliográficos
Autores principales: Kuzmík, Ján, Pohorelec, Ondrej, Hasenöhrl, Stanislav, Blaho, Michal, Stoklas, Roman, Dobročka, Edmund, Rosová, Alica, Kučera, Michal, Gucmann, Filip, Gregušová, Dagmar, Precner, Marian, Vincze, Andrej
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10056125/
https://www.ncbi.nlm.nih.gov/pubmed/36984128
http://dx.doi.org/10.3390/ma16062250
Descripción
Sumario:Metal organic chemical vapor deposition was used to grow N-polar In(0.63)Al(0.37)N on sapphire substrates. P-doping was provided by a precursor flow of Cp(2)Mg between 0 and 130 nmol/min, reaching a Cp(2)Mg/III ratio of 8.3 × 10(−3). The grain structure of 360 nm thick InAlN was spoiled by pits after introducing a flow of CP(2)Mg at 30 nmol/min. The surface quality was improved with a flow of 80 nmol/min; however, detrimental deterioration appeared at 130 nmol/min. This correlated with the XRD shape and determined density of dislocations, indicating a phase separation at the highest flow. Degenerated n-type conduction and a free carrier concentration of ~10(19) cm(−3) were determined in all samples, with a minor compensation observed at a CP(2)Mg flow of 30 nmol/min. The room temperature (RT) electron mobility of ~40 cm(2)/Vs of the undoped sample was reduced to ~6 and ~0.3 cm(2)/Vs with a CP(2)Mg flow of 30 and 80 nmol/min, respectively. Scattering at ionized acceptor/donor Mg-related levels is suggested. RT photoluminescence showed a red shift of 0.22 eV from the virgin 1.73 eV peak value with Mg doping. Mobility degradation was found to be the main factor by InAlN resistivity determination, which increased by two orders of magnitude, approaching ~0.5 Ωcm, at the highest Cp(2)Mg flow.