Special Issue
Topic: She Energy-Catalysis for Sustainability: Advancements and Challenges
Guest Editor(s)
Prof. Ying Wan
Key Laboratory of Resource Chemistry of Ministry of Education, Shanghai Key Laboratory of Rare Earth Functional Materials, and Department of Chemistry, Shanghai Normal University, Shanghai, China.
Special Issue Introduction
She Energy - Catalysis for Sustainability" is dedicated to celebrating and amplifying the outstanding contributions of women in the field of catalysis, with a strong focus on sustainability. This Special Issue aims to highlight the innovative research and advancements led by female scientists who are making significant strides in developing catalytic processes that are both environmentally friendly and resource-efficient.
This Issue seeks Original Research articles, Reviews, Perspectives, and Highlights that explore a wide range of topics within the realm of sustainable catalysis. Acceptable article themes include, but are not limited to, studies on the design and development of novel catalysts, green catalytic processes, waste minimization through catalysis, renewable energy applications, and catalytic approaches to carbon capture and utilization. We are particularly interested in research that demonstrates significant reductions in environmental impact, enhances the efficiency of chemical processes, or promotes the use of renewable resources.
Key topics of interest for this special issue include:
● Development of sustainable and green catalytic processes;
● Catalytic methods for waste reduction and resource recovery;
● Innovations in catalyst design for improved efficiency and selectivity;
● Renewable energy applications involving catalysis;
● Catalytic strategies for carbon capture, utilization, and storage;
● Biomass conversion and utilization through catalysis;
● Life cycle analysis of catalytic processes for sustainability.
By focusing on these critical areas, the "She Energy - Catalysis for Sustainability" not only showcases the vital role of women in advancing the field of catalysis but also underscores the importance of gender diversity in driving scientific and technological progress. The contributions featured in this Issue are set to inspire future generations of female scientists and engineers to engage in sustainable practices and continue pushing the boundaries of what is possible in catalysis for a more sustainable world.
This Issue seeks Original Research articles, Reviews, Perspectives, and Highlights that explore a wide range of topics within the realm of sustainable catalysis. Acceptable article themes include, but are not limited to, studies on the design and development of novel catalysts, green catalytic processes, waste minimization through catalysis, renewable energy applications, and catalytic approaches to carbon capture and utilization. We are particularly interested in research that demonstrates significant reductions in environmental impact, enhances the efficiency of chemical processes, or promotes the use of renewable resources.
Key topics of interest for this special issue include:
● Development of sustainable and green catalytic processes;
● Catalytic methods for waste reduction and resource recovery;
● Innovations in catalyst design for improved efficiency and selectivity;
● Renewable energy applications involving catalysis;
● Catalytic strategies for carbon capture, utilization, and storage;
● Biomass conversion and utilization through catalysis;
● Life cycle analysis of catalytic processes for sustainability.
By focusing on these critical areas, the "She Energy - Catalysis for Sustainability" not only showcases the vital role of women in advancing the field of catalysis but also underscores the importance of gender diversity in driving scientific and technological progress. The contributions featured in this Issue are set to inspire future generations of female scientists and engineers to engage in sustainable practices and continue pushing the boundaries of what is possible in catalysis for a more sustainable world.
Keywords
Sustainable Catalysis, green chemistry, renewable energy catalysis, eco-friendly catalysts, biomass conversion, carbon capture and utilization, waste reduction, catalyst design and innovation
Submission Deadline
30 Dec 2024
Submission Information
For Author Instructions, please refer to https://www.oaepublish.com/cs/author_instructions
For Online Submission, please login at https://oaemesas.com/login?JournalId=cs&IssueId=cs2405211
Deadline for submission: 30 Dec 2024
Contacts: Serein Hu, Assistant Editor, editorialoffice@chesynjournal.com
Published Articles
Coming soon