Jacqueline Schryer | Researchain

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Featured researches published by Jacqueline Schryer.

Atmospheric Environment | 1984

Carbon catalysis in the aqueous oxidation of SO2 by NO2 and air

David R. Schryer; Jacqueline Schryer; Wesley R. Cofer; S. A. Vay

Abstract Sulfur Dioxide and an oxidant gas — air or NO2 — were bubbled through aqueous suspensions of both washed and unwashed carbon black as well as through samples of wash water, which contained whatever soluble species were originally present on the carbon, and high-purity water. The sulfate yields obtained showed the washed and unwashed carbon to be equally catalytic for the oxidation of SO2 to sulfate by both oxidants whereas little sulfate was generated in either the wash water or high-purity water in the absence of carbon. These results indicate that the sulfate yields produced in aqueous suspensions of the carbon studied are due to catalysis by the carbon particles rather than by soluble species dissolved from them.

Langmuir | 1991

Catalytic behavior of noble metal/reducible oxide materials for low-temperature carbon monoxide oxidation. 1. Comparison of catalyst performance

Steven D. Gardner; Gar B. Hoflund; David R. Schryer; Jacqueline Schryer; Billy T. Upchurch; Erik J. Kielin

Archive | 2002

Methodology for the effective stabilization of tin-oxide-based oxidation/reduction catalysts

Jeffrey D. Jordan; David R. Schryer; Patricia P. Davis; Bradley D. Leighty; Anthony Neal Watkins; Jacqueline Schryer; Donald M. Oglesby; Suresh T. Gulati; Jerry C. Summers

Archive | 2003

Ruthenium stabilization for improved oxidation/reduction catalyst systems

Jeffrey D. Jordan; Anthony Neal Watkins; Jacqueline Schryer; Donald M. Oglesby

Archive | 2003

Oxidation-reduction catalyst and its process of use

Jeffrey D. Jordan; Anthony Neal Watkins; Jacqueline Schryer; Donald M. Oglesby

Archive | 2002

Stabilized tin-oxide-based oxidation/reduction catalysts

Jeffrey D. Jordan; David R. Schryer; Patricia P. Davis; Bradley D. Leighty; Anthony Neal Watkins; Jacqueline Schryer; Donald M. Oglesby; Suresh T. Gulati; Jerry C. Summers

Archive | 2004

Catalytic oxidation system

Jeffrey D. Jordan; Anthony Neal Watkins; Bradley D. Leighty; Patricia P. Davis; David R. Schryer; Richard J. Schwartz; Jacqueline Schryer; Donald M. Oglesby

MRS Proceedings | 1994

Performance Characteristics of Low-Temperature Co Oxidation Catalysts

Gar B. Hoflund; Steven D. Gardner; David R. Schryer; Billy T. Upchurch; Jacqueline Schryer; Erik J. Kielin

Archive | 1990

Chemisorption studies of Pt/SnO2 catalysts

Kenneth G. Brown; Susan K. Ohorodnik; John D. Vannorman; Jacqueline Schryer; Billy T. Upchurch; David R. Schryer

Archive | 1990

Pt/SnO2-based CO-oxidation catalysts for long-life closed-cycle CO2 lasers

David R. Schryer; Billy T. Upchurch; Robert V. Hess; George M. Wood; Barry D. Sidney; Irvin M. Miller; Kenneth G. Brown; John D. Vannorman; Jacqueline Schryer; David R. Brown

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