Effect of laser heating on the local temperature and composition in Raman spectroscopy: A study of Ba(NO3)(2) and BaO3 decomposition Academic Article

abstract

• The effect of laser heating on the local concentration of a white Ba(NO3)2 or BaO2 sample in a stationary in situ Raman cell, as determined by Raman spectroscopy, was addressed in this study. The decomposition of Ba(NO3)2 and crystalline BaO2, both supported on MgO, was followed as a function of the temperature of the cell with the use of Raman spectroscopy and product analysis by gas chromatography. At a laser power level of 25 mW and with the sample at 580C, the decomposition curves were offset by about 3C, rather than by a temperature difference of more than 15C that might be expected from laser heating. Diffusion of NO3- and O22- ions from the surrounding region into the 100 mu m-size spot heated by the laser apparently compensates for the loss of materials at the higher temperature. As a consequence, for in situ catalytic studies, the concentrations determined by Raman spectroscopy may be more representative of the sample than one might expect from the local temperature.

authors

• Rosynek, Michael

published proceedings

• APPLIED SPECTROSCOPY

author list (cited authors)

• Xie, S. B., Rosynek, M. P., & Lunsford, J. H.

citation count

• 14

complete list of authors

• Xie, SB||Rosynek, MP||Lunsford, JH

publication date

• January 1999

publisher

• SAGE Publications  Publisher

published in

• APPLIED SPECTROSCOPY  Journal

keywords

• Barium Nitrate Decomposition
• Barium Peroxide Decomposition
• Catalysis
• In Situ Raman Spectroscopy
• Laser Heating

Digital Object Identifier (DOI)

• 10.1366/0003702991945641

start page

• 1183

end page

• 1187

volume

• 53

issue

• 10

URL

• http://dx.doi.org/10.1366/0003702991945641