News & Comment

Omar Matar explains how changes in surface tension can cause fluid flow, while navigating a sea of related dimensionless numbers.

Systems-level thinking is an important practice, but accounting for system boundary expansion is a complex and timely challenge.

Polyimide-derived carbon molecular sieve (CMS) membranes mark an important step for various current, key energy-intensive separations. The excellent separation performance combined with economical scalability make CMS membranes ready to enable energy-transition-focused gas separations.

Chemical engineering principles will continue to help scientists design and optimize new medical devices, treatments and modalities. This Comment reflects on historical developments and potential opportunities in medicine for chemical engineering.

Professor Arthi Jayaraman from the University of Delaware talks to Nature Chemical Engineering about her path to becoming a chemical engineer, focus on modeling and simulations, and thoughts on bridging computational and experimental research.

Heterogeneous catalysis will continue to be a fundamental pillar of chemicals manufacturing. The development of sustainable catalytic technologies requires a multidimensional approach, bridging atomic-level design with planetary impact considerations. Prioritizing sustainability metrics, industry partnerships and circular economy principles as well as raising public awareness are crucial.

Gareth McKinley discusses the physical interpretation that lies behind the dimensionless parameters that are so widely used by engineers.

Welcome to the first issue of Nature Chemical Engineering, a new home for chemical engineering research spanning fundamental scientific advances to the design, scale-up and optimization of chemical and biological processes of importance to society.

Opportunities and challenges in data-driven chemical engineering thermodynamics, statistical mechanics and molecular simulation are discussed, and new possibilities offered by machine learning in these areas are assessed. Examples suggest how integration of data science and molecular simulation can prove impactful for the future of chemical engineering.

The balance of ‘outside–in’ and ‘inside–out’ signaling is critical in tissue development and regeneration. This Comment highlights emerging strategies to engineer and manipulate this delicate equilibrium and fine-tune cellular responses using complementary tools in biomaterials design and synthetic biology.