Electronic Properties of Zn₂V_(1–x)Nb_xN₃ Alloys to Model Novel Materials for Light-Emitting Diodes

Abstract: We propose the Zn2V(1–x)Nb x N3 alloy as a new promising material for optoelectronic applications, in particular for light-emitting diodes (LEDs). We perform accurate electronic-structure calculations of the alloy for several concentrations x using density-functional theory with meta-GGA exchange–correlation functional TB09. The band gap is found to vary between 2.2 and 2.9 eV with varying V/Nb concentration. This range is suitable for developing bright LEDs with tunable band gap as potential replacements for… Show more

“…The obtained lattice constants of the primitive unit cell of bulk Zn 2 VN 3 are a = 5.61 Å, b = 9.59 Å and c = 5.29 Å; of bulk Zn 2 NbN 3 are a = 5.79 Å, b = 9.88 Å and c = 5.42 Å; and of bulk Zn 2 TaN 3 are a = 5.79 Å, b = 9.90 Å and c = 5.44 Å, respectively. The results are match well with the available theoretical and experimental results for bulk Zn 2 VN 3 and Zn 2 NbN 3 42,45,67,68.…”

“…The results are match well with the available theoretical and experimental results for bulk Zn 2 VN 3 and Zn 2 NbN 3 . 42,45,67,68…”

Carrier transport in bulk and two-dimensional Zn₂(V,Nb,Ta)N₃ ternary nitrides

“…The obtained lattice constants of the primitive unit cell of bulk Zn 2 VN 3 are a = 5.61 Å, b = 9.59 Å and c = 5.29 Å; of bulk Zn 2 NbN 3 are a = 5.79 Å, b = 9.88 Å and c = 5.42 Å; and of bulk Zn 2 TaN 3 are a = 5.79 Å, b = 9.90 Å and c = 5.44 Å, respectively. The results are match well with the available theoretical and experimental results for bulk Zn 2 VN 3 and Zn 2 NbN 3 42,45,67,68.…”

“…The results are match well with the available theoretical and experimental results for bulk Zn 2 VN 3 and Zn 2 NbN 3 . 42,45,67,68…”

Carrier transport in bulk and two-dimensional Zn₂(V,Nb,Ta)N₃ ternary nitrides

“…The results obtained for the lattice constants are consistent with previous works. 20,21 The band structure plots of the Zn 2 (V, Nb, Ta)N 3 monolayers obtained using the GGA PBE and HSE06 approaches are shown in Fig. 1(d)-(f).…”

“…19 Another group of potentially stable Zn 2 V (1-x) Nb x N 3 ternary nitride compounds has been theoretically tested; within studied concentrations, 0 r x r 1, the Zn 2 V 0.5 Nb 0.5 N 3 compound turned out to be the most stable structure. 20 Very recently, following the strategy of aforementioned works, a new family of stable 2D materials, Zn 2 (V, Nb, Ta)N 3 monolayers, has been predicted. 21,22 All above-mentioned ternary nitrides, including 2D samples, hold high promise for application in optoelectronics and are, therefore, of interest for in-depth study.…”

Atomic insights into the interaction of N₂, CO₂, NH₃, NO, and NO₂ gas molecules with Zn₂(V, Nb, Ta)N₃ ternary nitride monolayers

“…A ITO/TiZnN 2 /Si photodetector has been developed generating a photocurrent with a low light intensity and insensitive to humidity . It has also been shown that Zn 2 V (1– x ) Nb x N 3 alloys possess comparably small bowing parameter that is beneficial for materials used in light-emitting diodes …”

Prediction of Zn₂(V, Nb, Ta)N₃ Monolayers for Optoelectronic Applications