TY - JOUR
T1 - Acceptor levels in p-type Cu2O
T2 - Rationalizing theory and Experiment
AU - Scanlon, David O.
AU - Morgan, Benjamin J.
AU - Watson, Graeme W.
AU - Walsh, Aron
PY - 2009/8/28
Y1 - 2009/8/28
N2 - Understanding conduction in Cu2O is vital to the optimization of Cu-based p-type transparent conducting oxides. Using a screened hybrid-density-functional approach we have investigated the formation of p-type defects in Cu2O giving rise to single-particle levels that are deep in the band gap, consistent with experimentally observed activated, polaronic conduction. Our calculated transition levels for simple and split copper vacancies explain the source of the two distinct hole states seen in DLTS experiments. The necessity of techniques that go beyond the present generalized-gradient- and local-density-approximation techniques for accurately describing p-type defects in Cu(I)-based oxides is discussed.
AB - Understanding conduction in Cu2O is vital to the optimization of Cu-based p-type transparent conducting oxides. Using a screened hybrid-density-functional approach we have investigated the formation of p-type defects in Cu2O giving rise to single-particle levels that are deep in the band gap, consistent with experimentally observed activated, polaronic conduction. Our calculated transition levels for simple and split copper vacancies explain the source of the two distinct hole states seen in DLTS experiments. The necessity of techniques that go beyond the present generalized-gradient- and local-density-approximation techniques for accurately describing p-type defects in Cu(I)-based oxides is discussed.
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U2 - 10.1103/PhysRevLett.103.096405
DO - 10.1103/PhysRevLett.103.096405
M3 - Article
AN - SCOPUS:69449108364
SN - 0031-9007
VL - 103
JO - Physical review letters
JF - Physical review letters
IS - 9
M1 - 096405
ER -