Add to ORKGTexto completo: acesso restrito. p. 420–427The critical impurity concentration Nc of the metal–nonmetal (MNM) transition for the cubic GaN, InN and AlN systems, is calculated using the following two different criteria: vanishing of the donor binding energy and the crossing point between the energies in the metallic and insulating phases. A dielectric function model with a Lorentz–Lorenz correction is used for the insulating phase. The InN presents an order of magnitude increase in Nc as compared to the other two systems. The electrical resistivity of the Si-donor system GaN is investigated theoretically and experimentally from room temperature down to 10 K. It presents a metallic character above a certain high impurity concentration identif...
The ammonothermal method is one of the most promising candidates for large-scale bulk GaN growth due...
The n-type GaN layers were grown by plasma-assisted MBE and either intentionally doped with Si or un...
Summary: Applying state-of-the-art first-principles calculations we study atomic geometry, electroni...
Texto completo: acesso restrito. p. 365–369The electrical resistivity of the Si-donor cubic GaN is i...
p. 2550-2555The critical concentration for the metal–nonmetal transition has been calculated for n-t...
Texto completo: acesso restrito. p. 8891–8899The band gap shift (BGS) of Si-doped wurtzite GaN for i...
Ammonothermally grown GaN is a promising substrate for high-power optoelectronics and electronics th...
We have investigated the unintentional n-type background doping in GaN(0001) layers grown on semi-in...
The electronic structure of Mg impurity in zincblende (c-)GaN is investigated by using the ab initio...
The III-nitride conductors are promising materials for the application to optoelectronic devices. Th...
Texto completo: acesso restrito. p. 1466–1471The cluster-like impurity effect in semiconductor mater...
The band-anticrossing (BAC) model has been widely applied to analyse the electronic structure of dil...
Gallium nitride and its alloys are direct band gap semiconductors with a wide variety of application...
First-principles calculations have evolved from mere aids in explaining and supporting experiments t...
The group III nitrides (GaN, InN, AlN ) are semiconductors with a large band gap, which can be adjus...
The ammonothermal method is one of the most promising candidates for large-scale bulk GaN growth due...
The n-type GaN layers were grown by plasma-assisted MBE and either intentionally doped with Si or un...
Summary: Applying state-of-the-art first-principles calculations we study atomic geometry, electroni...
Texto completo: acesso restrito. p. 365–369The electrical resistivity of the Si-donor cubic GaN is i...
p. 2550-2555The critical concentration for the metal–nonmetal transition has been calculated for n-t...
Texto completo: acesso restrito. p. 8891–8899The band gap shift (BGS) of Si-doped wurtzite GaN for i...
Ammonothermally grown GaN is a promising substrate for high-power optoelectronics and electronics th...
We have investigated the unintentional n-type background doping in GaN(0001) layers grown on semi-in...
The electronic structure of Mg impurity in zincblende (c-)GaN is investigated by using the ab initio...
The III-nitride conductors are promising materials for the application to optoelectronic devices. Th...
Texto completo: acesso restrito. p. 1466–1471The cluster-like impurity effect in semiconductor mater...
The band-anticrossing (BAC) model has been widely applied to analyse the electronic structure of dil...
Gallium nitride and its alloys are direct band gap semiconductors with a wide variety of application...
First-principles calculations have evolved from mere aids in explaining and supporting experiments t...
The group III nitrides (GaN, InN, AlN ) are semiconductors with a large band gap, which can be adjus...
The ammonothermal method is one of the most promising candidates for large-scale bulk GaN growth due...
The n-type GaN layers were grown by plasma-assisted MBE and either intentionally doped with Si or un...
Summary: Applying state-of-the-art first-principles calculations we study atomic geometry, electroni...