New Trends and Future Directions in Catalysis

1 hr 47 min

Frances Arnold

Lutz Ackermann

Corinna Schindler

Douglas W. Stephan

title
Save

About this video

The field of catalysis in chemistry was historically dominated by the use of transition metal catalysts. Due to a unique set of properties, precious metals in particular have played an integral role in developing catalysts for new modes of chemical bond activation and formation. One major and inherent drawback of precious metals, however, is their scarcity; in order to transition chemistry to a more sustainable use of the world’s limited resources, finding alternative strategies for catalysis is a major driving force in contemporary research. In this spirit, this webinar features talks about four areas of sustainable catalysis from leaders in their respective fields, highlighting state-of-the-art approaches and providing guidance for future developments in these areas of research. 

About the presenters

Frances Arnold

Frances Arnold is Linus Pauling Professor of Chemical Engineering, Bioengineering and Biochemistry, and Director of the Donna and Benjamin M. Rosen Bioengineering Center at Caltech. She received the Nobel Prize in Chemistry in 2018 for directed enzyme evolution.

Lutz Ackermann

Lutz Ackermann is a Professor at the Georg-August-University Göttingen. The development and application of novel concepts for sustainable catalysis constitutes his major current research interest, and he has a topical focus on C–H activation.

Corinna Schindler

Corinna Schindler is an Associate Professor at the University of Michigan. The research interests of her laboratory include the synthesis of complex molecules and the development of new synthetic transformations between carbonyls and alkenes. 

Douglas W. Stephan

Douglas W. Stephan is a Professor at the University of Toronto and a world-leading researcher in inorganic chemistry/catalysis and the founder of the field of “frustrated Lewis pair” (FLP) chemistry. He has received many national and international awards, including Humboldt and Killam Fellowships.

Comments

Cell Press (35)
0/35
Next up
How To Publish in High Impact Journals
Ethics and Copyright: Insights for Research Publishing from Cell Press
Best Practices in Submitting Research for Highly Selective Journals
Essential tips for publishing in high-impact journals
Innovation at Cell Press: Make the most of free Cell Press resources
Must Know Tips for Publishing in Premium Journals
Learn From The Editors: Tips For Impactful Submissions
Learn from the Editors: Authoring in High-Impact Journals
How to Prepare Your Manuscripts for Publication in Top Journals
Techniques for Publishing in Transformative Ground-Breaking Journals
Strengthening Research Capabilities Remotely
How to publish in groundbreaking journals
Navigating the Publishing Process for Groundbreaking Journals
Cell Press细胞出版社介绍及研究者资源分享
The Future of Batteries
Designing Quantum Materials using AI & Machine Learning: Opportunities for Collaboration
Understanding Materials for Quantum Information Processing
Essential Tips for Publishing in High Impact Journals
Navigating the Publishing Process for High Impact Journals
How to Prepare Your manuscripts for Publication in Top Journals
New Trends and Future Directions in Catalysis
Light/Matter Interactions: Illuminating Materials and Researchers
Introducing the Editor-in-Chief of Chem Catalysis
Med platforms Matter: Materials science for cancer diagnostics and treatment
Accessible high-throughput experimentation from startup to scale
Implementing flow chemistry in multidisciplinary synthesis and catalysis
2021 Pieces of Matter: Perovskites
Authoring tips, Inclusion & Diversity in Scientific Publishing
New approaches and strategies in main group catalysis
Publishing in Chem from Cell Press
Bioengineering for renewable energy and a sustainable future
Synergistic Catalysis
Catalysis for Clean Energy
Med platforms Matter: Emerging strategies for RNA therapeutics
Understanding the chemical mediators of ecological interactions