Classical and new insights into the methodology for characterizing adsorbents and metal catalysts by chemical adsorption

The adsorption phenomenon has been used extensively to achieve and explain solid-state reactions, control contamination, and purify liquids and gases. This process implies the use of a porous medium or a material with specific adsorption centers where the interactions with the reagents occur. Determination of the properties of adsorbent or catalyst materials that do not contain specific adsorption sites by physical gas adsorption is a wellestablished procedure in most research and quality-control laboratories. However, characterizing the specific centers by selective adsorption-chemisorption-remains an open question for discussion and study. The specific centers involved are often acidic/basic and metallic; in most cases, reagents are adsorbed and desorbed in these centers, whose determination allows controlling the processes and comparing the materials. The techniques and procedures presented herein facilitate the evaluation and the qualitative and quantitative determination of the surface properties of the materials using chemisorption processes for metallic and acidic/basic sites. The aim of this work is to review these techniques and procedures, including the updates published by several researchers, who mostly strive to explain the results of bifunctional metallic and acid-base catalytic behavior.

Automated summary

The adsorption phenomenon, using porous mediums or materials with specific adsorption centers, is widely used to achieve and explain solid-state reactions, control contamination, and purify liquids and gases. Physical gas adsorption is a well-established method to determine the properties of adsorbent or catalyst materials lacking specific adsorption sites. However, the characterization of specific centers by selective adsorption-chemisorption remains a topic of discussion and study.