Add to ORKGWe present a study of femtosecond (1028 nm, 230 fs, 54.7 MHz) laser processing on molybdenum (Mo) thin films. Irradiations were done under ambient air as well as pure oxygen (O2) at various gauge pressures (4, 8, 12 and 16 psi). Our results indicate that the high heating rates associated with laser processing allow the production of different molybdenum oxides. Raman spectroscopy and scanning electron microscopy are used to characterize the molybdenum oxidation for the different irradiation and oxygen pressures parameters chosen showing a high correlation between well-defined oxidation zones and the oxygen pressure surrounding the samples during the irradiation of the Mo thin films
Molybdenum oxides have gained attention in the last few years due to their vast variety of polymorp...
The selective processing of Mo at low temperatures is challenging, especially in advanced manufactur...
Thin films of molybdenum oxide were prepared by thermal evaporation. The effects of the preparation ...
We present a study of femtosecond (1028 nm, 230 fs, 54.7 MHz) laser processing on molybdenum (Mo) th...
Pulsed laser processing is a technique to induce optical and structural changes in materials, such a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
Molybdenum oxide thin films find diverse applications as catalysts, gas sensors, and electrochromic ...
Group 6 transition metal oxide thin films are in large demand for photocatalysis, heterogeneous cata...
Molybdenum (Mo) provides several properties that can be useful for the advanced manufacturing indust...
Molybdenum (Mo) provides several properties that can be useful for the advanced manufacturing indust...
Thin films of molybdenum oxides, MoO[subscript] X where 2 ≤ x \u3c 3, were prepared on silicon subst...
Molybdenum oxides have gained attention in the last few years due to their vast variety of polymorp...
The selective processing of Mo at low temperatures is challenging, especially in advanced manufactur...
Thin films of molybdenum oxide were prepared by thermal evaporation. The effects of the preparation ...
We present a study of femtosecond (1028 nm, 230 fs, 54.7 MHz) laser processing on molybdenum (Mo) th...
Pulsed laser processing is a technique to induce optical and structural changes in materials, such a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
The two-temperature model was used to gain insight into the thermal evolution of the hot electrons a...
Molybdenum oxide thin films find diverse applications as catalysts, gas sensors, and electrochromic ...
Group 6 transition metal oxide thin films are in large demand for photocatalysis, heterogeneous cata...
Molybdenum (Mo) provides several properties that can be useful for the advanced manufacturing indust...
Molybdenum (Mo) provides several properties that can be useful for the advanced manufacturing indust...
Thin films of molybdenum oxides, MoO[subscript] X where 2 ≤ x \u3c 3, were prepared on silicon subst...
Molybdenum oxides have gained attention in the last few years due to their vast variety of polymorp...
The selective processing of Mo at low temperatures is challenging, especially in advanced manufactur...
Thin films of molybdenum oxide were prepared by thermal evaporation. The effects of the preparation ...
