Latest Articles for Chemistry

CF+ contributes to our understanding of chemistry in space environments.

Research reveals unique properties of water in carbon nanotubes, impacting technology.

Researchers leverage light to separate chiral particles for improved applications in chemistry and medicine.

Research reveals how light affects molecular behavior in special environments.

Research reveals lower binding energy of benzene on water ice, impacting space chemistry.

This study investigates how polymers impact wastewater cleaning processes.

New generative model improves drug candidate creation using deep learning techniques.

Exploring chiral properties in ferroelectric materials and their diverse applications.

A look at how fast atom diffraction helps us study materials at the atomic level.

This article discusses the role of randomness in chemical reaction networks.

Explore how particles combine and form larger clusters through advanced models.

Exploring the link between chirality and NMR techniques in molecular studies.

A new method for better electron function localization in materials.

Examining how small chemical systems dramatically change under varying conditions.

Accurate dissociation energy values are crucial for understanding stellar elements and their abundances.

Discover how machine learning predicts outcomes of atomic interactions.

A novel technique improves our grasp of light’s effect on molecular behavior.

This article introduces a new approach for studying electron transfer reactions under strong electronic coupling.

Study reveals how star chemistry impacts rocky planet properties.

Exploring quantum methods for calculating molecular energies using hydrogen as a model.

Discover how light interacts with matter through advanced quantum theories.

Exploring the role of chirality in light interaction and chemical reactions.

A new method enhances quantum state preparation in computing.

A look into how entropy behaves under various conditions and models.

Exploring the relationship between polyhedral maps and their symmetrical properties.

Examining how gas and dust come together to form planets.

New algorithm improves synthesis planning by considering specific starting materials.

This article analyzes a model of three species interacting over time and space.

This article explores conserved-Hopf instability and its impact on biological and chemical systems.

Examining random movements on two chains reveals insights into system behavior.

A straightforward guide to the basics of entropy and thermodynamics.

A look into VQEs and their significance in quantum computing.

New methods improve simulation of fermion dynamics in various systems.

Examining the stability and energy states of neutral bosonic molecules.

MolTRES enhances chemical prediction by integrating knowledge and innovative training methods.

Machine learning enhances prediction of activity coefficients in chemical mixtures.

Examining how active matter undergoes nucleation and growth processes.

Data and machine learning are transforming how scientists find new materials.

New methods improve efficiency and accuracy in electronic structure modeling.

Metasurfaces improve the efficiency of optical tweezers for particle manipulation.