Add to ORKGSelf-consistent unrestricted Hartree-Fock calculations are presented for the adsorption of atomic oxygen onto the nickel oxide (100) surface. The perfect surface is shown to be non-reactive, but enhanced binding is found for vacancy sites in the first two atomic layers. Of particular interest are a first layer cation vacancy and a second layer anion vacancy. Various charge states are examined and charge transfers between adsorbate and surface are noted. A calculation for molecular oxygen in the neighborhood of a second layer anion vacancy is also presented. O2 is found to bind to the surface less strongly than atomic oxygen and accordingly a dissociation site is postulated. Analysis of the character of the electrons on the transition metal ...
The dissociation of O2 on Ni(100) has been studied using a cluster model approach. The three princip...
The interaction of transition metals belonging to the group Pt-Pd-Ni and the period Ni-Cu-Zn, with a...
The surface of metal oxides comprises an important and extremely interesting area of surface science...
We have investigated the adsorption of NO on a thin NiO(100) film of several layers thickness grown ...
Some simple transition metal oxides such as NiO have incomplete atomic subshells and yet are highly ...
We have calculated self-consistently the electronic structure of a model of a c(2×2) oxygen overlaye...
We have calculated self-consistently the electronic structure of a model of a c(2×2) oxygen overlaye...
Nickel-based oxides are highly active, cost-effective materials for the oxygen evolution reaction in...
We performed a series of density functional theory calculations of dissociative oxygen adsorption on...
Calculations of the electron density in oxygen overlayers on a nickel (001) surface show a ‘‘ball-an...
The adsorption of atomic nitrogen and oxygen on the (2110) crystal face of zinc oxide (ZnO) was stud...
Ab initio density functional theory was used to investigate the adsorption of oxygen molecule on the...
Atomic chemisorption of hydrogen and oxygen on the Ni(100) surface has been studied using an Effecti...
The present article is the first in a series describing investigations of the chemisorption and diss...
We have analyzed the relative energy of nonmagnetic and magnetic low-lying electronic states of Ni a...
The dissociation of O2 on Ni(100) has been studied using a cluster model approach. The three princip...
The interaction of transition metals belonging to the group Pt-Pd-Ni and the period Ni-Cu-Zn, with a...
The surface of metal oxides comprises an important and extremely interesting area of surface science...
We have investigated the adsorption of NO on a thin NiO(100) film of several layers thickness grown ...
Some simple transition metal oxides such as NiO have incomplete atomic subshells and yet are highly ...
We have calculated self-consistently the electronic structure of a model of a c(2×2) oxygen overlaye...
We have calculated self-consistently the electronic structure of a model of a c(2×2) oxygen overlaye...
Nickel-based oxides are highly active, cost-effective materials for the oxygen evolution reaction in...
We performed a series of density functional theory calculations of dissociative oxygen adsorption on...
Calculations of the electron density in oxygen overlayers on a nickel (001) surface show a ‘‘ball-an...
The adsorption of atomic nitrogen and oxygen on the (2110) crystal face of zinc oxide (ZnO) was stud...
Ab initio density functional theory was used to investigate the adsorption of oxygen molecule on the...
Atomic chemisorption of hydrogen and oxygen on the Ni(100) surface has been studied using an Effecti...
The present article is the first in a series describing investigations of the chemisorption and diss...
We have analyzed the relative energy of nonmagnetic and magnetic low-lying electronic states of Ni a...
The dissociation of O2 on Ni(100) has been studied using a cluster model approach. The three princip...
The interaction of transition metals belonging to the group Pt-Pd-Ni and the period Ni-Cu-Zn, with a...
The surface of metal oxides comprises an important and extremely interesting area of surface science...