Comparative Study of H₂O and O₂ Adsorption on the GaN Surface

Abstract: GaN is an excellent candidate for photocatalytic, optoelectronic, and high-power devices, and the interaction between the GaN surface and ambient species, especially H2O and O2, has drawn exceptional attention. In this study, the evolution of the n-GaN(0001) surface geometric structure and the corresponding band bending (a key parameter that describes the surface electronic structure of a semiconductor) during H2O and O2 exposure is predicted from first-principles calculations and confirmed by ambient pressure… Show more

“…According to the electronic structure results in previous researches, H 2 O and O 2 molecules can adsorb onto the surface without spin flipping because H 2 O and O 2 can choose the spin state of the electrons donated to the surface. [41,42] The lone pairs of oxygen in the H 2 O and O 2 molecules approach the Ga atom on the GaN surface, and the OH − and O 2− can contribute an electron with a spin opposite to the dangling bond on the GaN surface. [41,42] When the switch was placed in a vacuum ambient, the device had no memristive characteristics or conductivity.…”

“…[41,42] The lone pairs of oxygen in the H 2 O and O 2 molecules approach the Ga atom on the GaN surface, and the OH − and O 2− can contribute an electron with a spin opposite to the dangling bond on the GaN surface. [41,42] When the switch was placed in a vacuum ambient, the device had no memristive characteristics or conductivity. When the relative humidity was 68%, numerous OH − and O 2− ions were produced around the GaN NWs; these ions assisted in the formation of conductive paths on the NW surface and contributed to enhanced conductivity and memristive characteristics.…”

Wet‐Etching‐Boosted Charge Storage in 1D Nitride‐Based Systems for Imitating Biological Synaptic Behaviors

“…According to the electronic structure results in previous researches, H 2 O and O 2 molecules can adsorb onto the surface without spin flipping because H 2 O and O 2 can choose the spin state of the electrons donated to the surface. [41,42] The lone pairs of oxygen in the H 2 O and O 2 molecules approach the Ga atom on the GaN surface, and the OH − and O 2− can contribute an electron with a spin opposite to the dangling bond on the GaN surface. [41,42] When the switch was placed in a vacuum ambient, the device had no memristive characteristics or conductivity.…”

“…[41,42] The lone pairs of oxygen in the H 2 O and O 2 molecules approach the Ga atom on the GaN surface, and the OH − and O 2− can contribute an electron with a spin opposite to the dangling bond on the GaN surface. [41,42] When the switch was placed in a vacuum ambient, the device had no memristive characteristics or conductivity. When the relative humidity was 68%, numerous OH − and O 2− ions were produced around the GaN NWs; these ions assisted in the formation of conductive paths on the NW surface and contributed to enhanced conductivity and memristive characteristics.…”

Wet‐Etching‐Boosted Charge Storage in 1D Nitride‐Based Systems for Imitating Biological Synaptic Behaviors

(Photo-)electrochemical reactions on semiconductor surfaces, part B: III-V surfaces–atomic and electronic structure

Surface treatment of GaN nanowires for enhanced photoelectrochemical water-splitting