Further development of selective physisorption for measuring catalyst surface area

Abstract: Platinum supported on silica is used as a model supported catalyst for the purpose of demonstrating that the selective physisorption method yields the fractional catalyst surface area of supported catalysts, including metal compounds catalysts for which the method is primarily intended. The selective physisorption results with nitrous oxide as adsorbate are compared with hydrogen chemisorption results for this purpose. Experimental and theoretical refinements of the method developed earlier in our laboratory a… Show more

“…With respect to macroporous catalysts, Lee and co-workers (1128) reported further development of the method of selective physisorption for measuring catalyst surface area. The purpose of the method is to determine the individual surface areas of both catalyst and support.…”

“…Initial demonstration of the method involved using the thermal desorption of C02 from K2C03/carbon black and Ag/Al203 to determine the fractional surface coverage of each component. In the latest demonstration (1128), N20 was used as the sorbate for determining fractional surface areas of Pt on Si02. Further theoretical and experimental refinements to the method were made in order to make it effective for this case (i.e., where catalyst only covers a small fraction of the surface area).…”

Catalyst characterization

“…With respect to macroporous catalysts, Lee and co-workers (1128) reported further development of the method of selective physisorption for measuring catalyst surface area. The purpose of the method is to determine the individual surface areas of both catalyst and support.…”

“…Initial demonstration of the method involved using the thermal desorption of C02 from K2C03/carbon black and Ag/Al203 to determine the fractional surface coverage of each component. In the latest demonstration (1128), N20 was used as the sorbate for determining fractional surface areas of Pt on Si02. Further theoretical and experimental refinements to the method were made in order to make it effective for this case (i.e., where catalyst only covers a small fraction of the surface area).…”

Catalyst characterization