George H. Smudde scite author profile

George H. Smudde

5Publications

145Citation Statements Received

0Citation Statements Given

How they've been cited

221

132

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Affiliations

Air Products (United States), Northwestern University

Publications

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A methyl free radical source for use in surface studies

Peng

Viswanathan

Smudde

et al. 1992

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A methyl radical source has been developed for use in high vacuum. Methyl radicals are produced through azomethane pyrolysis in a tubular reactor located inside an ultrahigh vacuum chamber. Other gas products include nitrogen from azomethane pyrolysis, and methane, ethane plus hydrogen from the reactions of methyl radicals on the walls of the reactor. Methyl yields as high as 42% have been observed.

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The oxidation of Mo(100) studied by XPS and surface Raman spectroscopy: the onset of MoO2 formation and the formation of surface polymolybdate

Smudde

Stair

1994

Surface Science

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Adsorption of methyl radicals on the oxygen-modified molybdenum(100) surface

Smudde¹,

Stair³

1993

J. Am. Chem. Soc.

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DRIFTS and Raman Investigation of N₂ and O₂ Adsorption on Zeolites at Ambient Temperature

et al. 1995

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Diffuse reflectance infrared fourier transform spectroscopy (DRIFTS) and Raman spectroscopy were used to examine N2 and O2 adsorption on cation-exchanged (K, Na, Sr, Ca, and Li) low silica X (LSX) zeolites. IR and Raman absorption bands were observed for the molecular vibration of adsorbed N2 and O2 at room temperature and atmospheric pressure. The intensity (in Kubelka-Munk units) of the IR band increased with N2 pressure and mirrored the adsorption isotherm for N2. Both O2 and N2 displayed a similar dependence of the molecular vibrational frequency on cation charge density, which suggests that both gases are interacting directly with the cations. The vibrational frequencies for adsorbed N2 and O2 were more sensitive to the cation charge density than to framework Al content. Infrared studies of N2 and O2 on mixed cation forms of LSX show that N2 interaction was localized near individual cations within the sorption cavity of the zeolite. Thus, adsorbed N2 can be used to probe accessibility of specific cations within the zeolite framework. The spectroscopic data are consistent with the theory that the stronger interaction of N2 over O2 is caused by the stronger influence of the electric field with the larger quadrupole of N2.

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Adsorption of gas phase methyl radicals on the oxygen modified Mo(100) single crystal surface

Smudde¹,

Peng²,

Viswanathan³

et al. 1991

Journal of Vacuum Science & Technology A: Vacuum, Surfaces,

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George H. Smudde

A methyl free radical source for use in surface studies

The oxidation of Mo(100) studied by XPS and surface Raman spectroscopy: the onset of MoO2 formation and the formation of surface polymolybdate

Adsorption of methyl radicals on the oxygen-modified molybdenum(100) surface

DRIFTS and Raman Investigation of N₂ and O₂ Adsorption on Zeolites at Ambient Temperature

Adsorption of gas phase methyl radicals on the oxygen modified Mo(100) single crystal surface

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About

George H. Smudde

A methyl free radical source for use in surface studies

The oxidation of Mo(100) studied by XPS and surface Raman spectroscopy: the onset of MoO2 formation and the formation of surface polymolybdate

Adsorption of methyl radicals on the oxygen-modified molybdenum(100) surface

DRIFTS and Raman Investigation of N2 and O2 Adsorption on Zeolites at Ambient Temperature

Adsorption of gas phase methyl radicals on the oxygen modified Mo(100) single crystal surface

Contact Info

Product

Resources

About

DRIFTS and Raman Investigation of N₂ and O₂ Adsorption on Zeolites at Ambient Temperature