Aims & Scope

Aims:

Energy Chemistry and Environmental Catalysis is an open access peer-reviewed journal publishing original research works involving in all areas of energy chemistry and environmental catalysis. The journal aims to provide a platform for disseminating the novel and insightful research knowledge related to the fields of energy chemistry and environmental catalysis, fostering interdisciplinary communications and promoting understanding of significant energy and environmental issues. The journal publishes high-quality articles with a variety of types, such as new discoveries, original fundamental and engineering research, critical reviews/mini-reviews, rapid communications, opinions, research notes, and so on. Energy Chemistry and Environmental Catalysis intends to serve as the internationally renowned journal in the fields of energy and environment.

Scope:

The scope of the journal focuses on the topics of energy chemistry and environmental catalysis, covering the fundamental research on energy chemistry and environmental catalysis and the applications in energy store, production, and conversion and environmental pollution control and remediation as well as the theoretical and computational chemistries related to energy and environment. 

Research works suitable for publication in Energy Chemistry and Environmental Catalysis include, but are not limited to, the following:

Batteries

Fuel cells

Hydrogen generation and storage

Fossil energy utilization and conversion

Chemical energy conversion and storage

Electrochemical energy conversion and storage

Solar energy utilization and conversion

Renewable and clean energy production

Development of energy science and technologies

Novel materials for energy and environmental applications

Energy materials

Environmental catalytic materials

Nanocatalytic materials

Environmental photocatalysis

Environmental electrocatalysis

Environmental thermocatalysis

Environmental biocatalysis

Environmental photoelectrocatalysis

Environmental photothermocatalysis

Environmental catalysis mechanisms

Computational environmental catalysis