Graphitization of alumina as a way to stabilize its textural characteristics under hydrothermal conditions

Gamma alumina is a widely used support for catalysts of various processes. However, in the case of aqueousphase processes, hydrothermal conditions result in transformation of gamma-Al2O3 to boehmite, which is accompanied by degradation of the porous structure and leads to rapid catalyst deactivation. Here, we demonstrate a simple approach to stabilize the textural characteristics of gamma-Al2O3 under hydrothermal conditions, based on preliminary graphitization of its surface by chemical vapor deposition of ethylene. Different duration (5-240 min) revealed the optimal degree of alumina surface coverage with carbon, ensuring the preservation of its textural characteristics from collapse during hydrothermal treatment (HTT) at 200 degrees C. Materials characterization was performed by X-ray diffraction, transmission electron microscopy, nitrogen physisorption, and Raman spectroscopy. It is shown that initial gamma-Al2O3 during HTT transforms into boehmite with a dramatic decrease in the surface area from 217 to 42 m2/g. Whereas the preliminary graphitization of its surface maintains high surface area of the material after HTT, which is achieved by forming a C@boehmite composite (294 m2/g). The presented approach makes it possible to modify the surface of alumina supports with a layer of graphite-like carbon and can be used to improve or maintain the catalysts activity.

Automated summary

This study demonstrates a simple approach to stabilize the textural characteristics of gamma-Al2O3 under hydrothermal conditions. By chemically vapor depositing ethylene on the surface, preliminary graphitization of gamma-Al2O3 is achieved, forming a C@boehmite composite. This method can improve or maintain the activity of catalysts.