Editor-in-Chief: Prof. Jan Baeyens, Beijing University of Chemical Technology, China.
View Editorial Board
Aims & Scope
Aim:
Journal of Green Energy and Green Chemicals (JGEGC) is a peer-reviewed international journal that is dedicated to advancing sustainable technologies in energy production, chemical processes, and materials development, with a strong emphasis on the role of catalysts in these transformations. The journal publishes innovative research that contributes to environmental sustainability and supports the transition to a green economy.
Serving as a global platform, JGEGC highlights cutting-edge developments in green energy technologies and chemical processes, with catalysis positioned as a central element in these advancements. The journal promotes interdisciplinary collaboration among researchers, policymakers, and industry leaders, aiming to accelerate the development of sustainable solutions for energy and chemical production.
JGEGC welcomes high-quality research articles, reviews, and perspectives that deepen the understanding and application of green technologies. The journal is published quarterly online by Scilight Press.
Scope:
The scope of JGEGC is extensive and includes, but is not limited to, the following areas:
- Catalysis in Green Chemistry:
Design and synthesis of sustainable catalysts;
Catalytic processes for renewable energy conversion;
Catalytic processes for green hydrogen production;
Catalysts for biomass conversion to fuels and chemicals;
Catalytic emission reduction techniques;
Photocatalysis and electrocatalysis for green chemical production.
- Sustainable Energy Technologies:
Renewable energy sources (solar, wind, hydro; bioenergy);
Hydrogen production, storage, and utilization;
Carbon capture, storage and utilization (CCSU);
Reduction of greenhouse gas emissions.
- Green Chemical Processes:
Bio-based feedstocks and green solvents;
Catalytic processes for waste reduction and recycling;
Development of energy-efficient and environmentally friendly catalytic reactors.
Process intensification for sustainable chemical production.
- Energy Storage and Conversion:
Catalysts for advanced batteries and fuel cells;
Sensible, phase change, thermochemical and electrochemical energy storage.
- Sustainable Materials:
Catalytic synthesis of recyclable and biodegradable materials;
Nanomaterials and catalysts for energy and chemical applications.
- Circular Economy:
Resource efficiency and recycling in energy and chemical industries;
Upcycling of waste materials, preferably using catalytic processes.
- Environmental Impact and Policy:
Lifecycle assessment of catalytic materials and processes;
Global perspectives and policies on green technologies.
- Emerging Technologies:
Breakthroughs in catalysis for green energy and chemical production;
AI and machine learning in optimizing catalytic processes.