The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the corresponding metal Ru(0 0 0 1) surface is correlated with the weaker oxygen bonding on RuO2(1 1 0) compared to chemisorbed oxygen on Ru(0 0 0 1). The RuO2(1 1 0) surface stabilizes at least two potentially active oxygen species, i.e., bridging O and on-top O atoms. Together with various adsorption sites for CO during the reaction, the CO oxidation reaction over RuO2(1 1 0) becomes quite complex. Using the techniques of temperature programmed reaction and desorption in combination with state-of-the-art density functional theory calculation we studied the CO oxidation reaction over RuO2(1 1 0) in the temperature range of 300–400 K. We show that...
The adsorption sites of CO on the reduced RuO2(110) surface were determined by employing the techniq...
RuO2(110) surfaces were prepared by exposing Ru(0001) to 10(7) L of O-2 at 700 K. Postexposure of O-...
The adsorption sites of CO on the reduced RuO2(110) surface were determined by employing the techni...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
RuO2-based catalysts are much more active in the oxidation of CO than related metallic Ru catalysts....
RuO2-based catalysts are much more active in the oxidation of CO than related metallic Ru catalysts....
Over the past few years, RuO2 has developed into one of the best-characterized late transition metal...
Over the past few years, RuO2 has developed into one of the best-characterized late transition metal...
Employing temperature-programmed reaction and desorption, we studied the reduction of RuO2(110) by C...
RuO2(110) surfaces were prepared by exposing Ru(0001) to 10(7) L of O-2 at 700 K. Postexposure of O-...
The structure and reactivity of the oxygen phases on Ru(0001) and Ru(100) and the bulk RuO2(101) sur...
Employing temperature-programmed reaction and desorption, we studied the reduction of RuO2(110) by C...
Employing temperature-programmed reaction and desorption, we studied the reduction of RuO2(110) by C...
The structure of RuO2(110) and the mechanism for catalytic carbon monoxide oxidation on this surface...
The adsorption sites of CO on the reduced RuO2(110) surface were determined by employing the techniq...
RuO2(110) surfaces were prepared by exposing Ru(0001) to 10(7) L of O-2 at 700 K. Postexposure of O-...
The adsorption sites of CO on the reduced RuO2(110) surface were determined by employing the techni...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
RuO2-based catalysts are much more active in the oxidation of CO than related metallic Ru catalysts....
RuO2-based catalysts are much more active in the oxidation of CO than related metallic Ru catalysts....
Over the past few years, RuO2 has developed into one of the best-characterized late transition metal...
Over the past few years, RuO2 has developed into one of the best-characterized late transition metal...
Employing temperature-programmed reaction and desorption, we studied the reduction of RuO2(110) by C...
RuO2(110) surfaces were prepared by exposing Ru(0001) to 10(7) L of O-2 at 700 K. Postexposure of O-...
The structure and reactivity of the oxygen phases on Ru(0001) and Ru(100) and the bulk RuO2(101) sur...
Employing temperature-programmed reaction and desorption, we studied the reduction of RuO2(110) by C...
Employing temperature-programmed reaction and desorption, we studied the reduction of RuO2(110) by C...
The structure of RuO2(110) and the mechanism for catalytic carbon monoxide oxidation on this surface...
The adsorption sites of CO on the reduced RuO2(110) surface were determined by employing the techniq...
RuO2(110) surfaces were prepared by exposing Ru(0001) to 10(7) L of O-2 at 700 K. Postexposure of O-...
The adsorption sites of CO on the reduced RuO2(110) surface were determined by employing the techni...