Latest Articles for Chemical Engineering

New models improve battery electrolyte efficiency predictions.

Researchers are using LIMO to create specialized molecules for medicine.

Study reveals how water drops behave on oil-coated surfaces, impacting various fields.

Research highlights improvements in lithium argyrodite for safer, more efficient batteries.

MM-RCR enhances the prediction of optimal reaction conditions in chemical synthesis.

A look into the behavior of charged colloidal mixtures and their properties.

Exploring the impact of temperature on viologen gel properties and applications.

Learn how math aids in understanding chemical reactions and their interactions.

UNIFAC 2.0 enhances predictions of chemical mixtures using advanced techniques.

Exploring the behavior and potential of magnetic nanoparticles in various fields.

Research highlights microbial pigments from agricultural waste as eco-friendly dye solutions.

This article examines how nanoparticles act in liquids and gases.

Exploring the role of Bayesian optimization in chemical engineering.

Researchers synthesize new plutonium intermetallics, revealing intriguing magnetic behaviors.

Exploring new ways to create effective copolymers for various applications.

Examining the properties and potential applications of hybrid perovskites.

Harnessing NMPC for optimal performance in alkaline electrolyzer operations.

Explore how shear-thinning fluids behave under stress and the effects of instabilities.

Hydrates could be key players in our energy future and climate action.

A new method uses deep learning for faster atmospheric chemical predictions.

Research reveals the formation and potential of carbon dioxide hydrates.

A look into the behavior of polymeric fluids through the compressible FENE model.

Rag2Mol enhances drug discovery efficiency by integrating retrieval methods and machine learning.

How salt concentration impacts metal surface potential in solutions.

Research unveils how patchy particles can form unique quasicrystal structures.

A new framework combines PID control and reinforcement learning for improved chemical process management.

Study reveals factors affecting the stability of liquid films in dip-coating.

A look into the factors influencing liquid viscosity and its applications.

HTOCSP speeds up predictions for organic crystal structures using automated methods.

A study on improving parameter estimation in vapor-liquid equilibrium models.

Active materials can change behavior through communication, mimicking life-like responses.

A study of self-diffusion and shear viscosity in SW fluid.

This article discusses the connection between different phase transitions in materials.

Innovative methods convert CO2 into fuels and chemicals using silver electrocatalysts.

Investigating how Yttrium affects the electrical properties of Lanthanum Yttrium Cobalt Oxide.

This study examines how microemulsions behave during evaporation in combustion settings.

Investigating how hydrogen affects metal strength and ductility in various applications.

Sustainable solutions for chemical production using synthetic biology are on the rise.

Innovative methods improve understanding of fluid mixtures in various applications.

A-GFNs use atoms to create new drug-like molecules, improving drug discovery.