Structural characterizations for the as-prepared catalysts. (a) XRD patterns of the Co3O4 and 4% Er−Co3O4. (b) Crystal structure of the Co3O4 in this study. (c) TEM image of 4% Er− Co3O4, (d-e) HRTEM ...
(a) Free energies of M(OH)2 to MOOH in FeCoNi and FeCoNiCr hydroxides. (b) Free energies of M(OH)2 to MOOH in FeCo and FeCoCr hydroxides. (c) Free energies of M(OH)2 to MOOH in FeNi and FeNiCr ...
Since its first development two decades ago, graphene has become an extensively used material. From semiconductors to water filtration, the wonder material continues to be explored with fascination by ...
Researchers developed an yttrium doped nickel catalyst that creates stable oxygen vacancies to improve ammonia decomposition for clean hydrogen production.
Hydrogen peroxide is one of the world's top 100 industrial chemicals with a wide range of applications in the chemical, medical, and semiconductor industries. Currently, hydrogen peroxide is mainly ...
Scientists have made an advancement in the field of electrocatalysis. Their latest research sheds light on how catalysts can stay in unanticipated forms during the process of nitrate reduction. The ...
Technologies that convert carbon dioxide (CO₂) emitted from factories and power plants into useful chemical feedstocks are considered key to achieving carbon neutrality. However, rapid degradation of ...