Latest Articles for Chemistry

Learn how new techniques improve quantum simulation for complex systems.

A numerical framework to analyze the behavior of phoretic particles in fluid environments.

Investigating how hairy particles change shape at liquid-liquid boundaries.

Study reveals how CO and NO form on unique ice in space.

Research explores how hydrothermal vents may have helped life begin on Earth.

A new method for calculating electron behavior in molecules by incorporating memory.

A look into complex organic molecules in the unique protobinary system SVS13A.

Researchers combine quantum computing and chemistry to improve drug discovery processes.

This article presents a method to identify conservation laws using data analysis.

A new approach improves atomic interaction descriptors with geodesic distance.

Innovative techniques reveal new insights into molecular shapes and behaviors.

A study on how carboxylate ligands affect the properties of lead sulfide nanocrystals.

Exploring the significance of the hydroxyl radical in various chemical processes.

A method to improve classification accuracy in deep learning by enforcing logical rules.

Exploring how quantum mechanics impacts chemical reactions and their behaviors.

Examining how static and dynamic environments affect molecular properties.

Exploring the fascinating process of quantum tunneling and its implications.

This article discusses how electric fields affect chemical reactions in solutions.

New quantum algorithms enhance molecular response calculations in spectroscopy.

This article discusses the impact of LLMs on chemical research and education.

Research reveals how changing conditions affects particle flow in suspensions.

An overview of how electron-phonon coupling affects material properties.

Exploring the significance of monotonicity and contractivity in reaction networks.

A look at how light interacts with small particles in liquids.

Exploring autocatalytic networks and their role in chemical processes and life.

A novel approach cuts qubit use while maintaining accuracy in molecular simulations.

This article explores spontaneous processes in non-equilibrium systems and their applications.

Adaptive stepsize methods enhance Langevin dynamics simulations of particle behavior under random forces.

New techniques for faster and flexible molecular structure generation are emerging.

Exploring self-avoiding walks and their implications on complex graph structures.

Investigating chirality using advanced laser techniques reveals new scientific insights.

Exploring how particles stick to surfaces and their real-world applications.

CACTUS combines LLMs and cheminformatics to aid drug discovery and molecular analysis.

HfN films show promise as a gold alternative in advanced applications.

Combining large language models and message passing networks improves molecular property predictions.

Using laser fields to study chiral molecules' unique interactions.

A closer look at HCO's significance in planet formation.

Researchers combine chirality and chaos to enhance sensor sensitivity.

Explore how predator-prey interactions create complex patterns in nature.

Learn how particles pass through barriers in quantum physics.