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Chem, a sister journal to Cell, provides a home for seminal and insightful research and showcases how fundamental studies in chemistry and its sub-disciplines may help in finding potential solutions to the global challenges of tomorrow. Chem publishes work from across the chemical sciences and at … View full aims & scope Read the latest articles of Chem at ScienceDirect.com, Elsevier’s leading platform of peer-reviewed scholarly literature Journal Insights Aims & scope Chem, a sister journal to Cell, provides a home for seminal and insightful research and showcases how fundamental studies in chemistry and its sub-disciplines may help in finding potential solutions to the global challenges of tomorrow. Chem publishes work from across the chemical sciences and at … View full aims ...
Understanding the Context
Chem | Vol 10, Issue 10, Pages 2931-3258 (10 October 2024 ... Chem Catalysis is a monthly journal publishing innovative and insightful research on fundamental and applied catalysis, providing a platform for researchers across chemistry, chemical engineering, and related fields to disseminate and promote their work. An International Journal of Research and Development. The Chemical Engineering Journal focuses upon seven aspects of Chemical Engineering: Applied Biomaterials and Biotechnologies, Catalysis, Chemical Reaction Engineering, Computational Chemical Engineering, Environmental Chemical Engineering, Green and Sustainable Science and Engineering, and Novel Materials.
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The Chemical Engineering Journal ... Chem Circularity is a Cell Press journal publishing cutting-edge insights and research to advance the pursuit of closed-loop solutions. The journal publishes insights and innovations across disciplines that transform linear processes into sustainable, closed-loop systems with an emphasis on … View full aims & scope In Chem, Hou et al. demonstrate that regenerable Li/Ru interfaces, formed via a reversible lithium battery, thermally drive ammonia synthesis. This method achieves 2.4 mmol NH3 g Ru−1 h −1 at ambient conditions with over 400-h stability, distinguishing thermocatalytic conversion from voltage-dependent electrochemical reduction.