An in Situ Raman Spectroscopy System for Long-term Corrosion Experiments in High Temperature Water up to 673 K

Abstract: A Raman spectroscopy system has been developed, in order to identify metal oxides formed on the surfaces of metals and steels in high temperature water up to 673 K. A supercritical water loop system including a Raman cell was installed. The design of the loop system is up to 673 K and 40 MPa. The Raman cell has a diamond window without window-to-metal packing. Raman spectrum of alumina plate was measured at room temperature, at 523 K and at 673 K under pressure of 25 MPa. A long-term measurement was also perfo… Show more

“…The frequency for chlorine in the gas phase has been determined to 557 cm −1 . The Raman spectrum of activated NA-TiO 2 clearly indicates that the metal oxide is in the anatase phase, as supported by the literature, – with peaks at 640.9, 517.3, 398.2, and 146.1 cm −1 (Figure b). The chlorinated adduct again shows no chlorine peak.…”

Synthesis and Characterization of Nanosized Halogenated and Interhalogenated Metal Oxide Adducts

“…The frequency for chlorine in the gas phase has been determined to 557 cm −1 . The Raman spectrum of activated NA-TiO 2 clearly indicates that the metal oxide is in the anatase phase, as supported by the literature, – with peaks at 640.9, 517.3, 398.2, and 146.1 cm −1 (Figure b). The chlorinated adduct again shows no chlorine peak.…”

Synthesis and Characterization of Nanosized Halogenated and Interhalogenated Metal Oxide Adducts