Synthesis and characteristics of aluminate spinel ceramic pigments based on spent aluminium-cobalt-molybdenum catalyst

Abstract: Purpose The purpose of this paper is to conduct the directed synthesis of blue-colour aluminate spinel pigments based on spent aluminium–cobalt–molybdenum (ACM) catalyst and to study peculiar features of mineral formation processes and changes in their colour indices depending on composition and firing temperature. Design/methodology/approach Aluminate spinel ceramic pigments with specified colour indices were synthesised by directed formation of their mineral composition and identification of the most ratio… Show more

“…19,20 The CoAl 2 O 4 spinel catalysts exhibit a wide range of applications in NH 3 -SCR reactions due to their good catalytic activity, good thermal stability, modulated acid-base properties, structural tunability, and anti-poisoning properties. 14,[21][22][23] However, the pure CoAl 2 O 4 spinel catalysts present some limitations in the NH 3 -SCR reaction, such as high activation energy and relatively low catalytic activity. 24,25 To overcome these limitations and improve the catalytic performance, an effective strategy involves modifying the electronic structure and surface properties of catalysts through doping with transition metals or nonmetallic elements.…”

A combined DFT and experimental study of NO by NH₃-selective catalytic reduction over an Fe-doped CoAl₂O₄ catalyst

“…19,20 The CoAl 2 O 4 spinel catalysts exhibit a wide range of applications in NH 3 -SCR reactions due to their good catalytic activity, good thermal stability, modulated acid-base properties, structural tunability, and anti-poisoning properties. 14,[21][22][23] However, the pure CoAl 2 O 4 spinel catalysts present some limitations in the NH 3 -SCR reaction, such as high activation energy and relatively low catalytic activity. 24,25 To overcome these limitations and improve the catalytic performance, an effective strategy involves modifying the electronic structure and surface properties of catalysts through doping with transition metals or nonmetallic elements.…”

A combined DFT and experimental study of NO by NH₃-selective catalytic reduction over an Fe-doped CoAl₂O₄ catalyst