Latest Articles for Chemistry

A look at the integration of DFT and machine learning in chemical research.

Research reveals the factors affecting coffee extraction and flavor.

A look at improved methods for designing chemical compounds with specific properties.

Study reveals the impact of initial conditions on methylhydroperoxide reactions.

Discovering the unique behaviors and properties of supercooled liquids.

Research reveals insights into nitrogen-doped lutetium hydride's superconducting properties at room temperature.

Chiral molecules influence charge transport, affecting electronics and materials science.

Examining how disorder changes high-harmonic generation in unique carbon structures.

A look into how substances interact and spread in various fields.

A new approach to enhance DFT accuracy using kinetic energy indicators.

Research reveals important insights into ion mobility of heavy elements in helium.

Research reveals how Brownian particles behave with changing pressures and temperatures.

Coherent states aid in understanding quantum systems and their practical applications.

This article examines the relationship between fluctuations and responses in nonequilibrium chemical reactions.

This study reveals conditions for oscillations in chemical reaction networks.

Exploring the dynamics of chemical reaction networks influenced by external environments.

Learn how angular momentum affects the light spectrum of diatomic molecules.

Investigating why hot water can freeze quicker than cold.

Discover the role of Hamiltonians in advancing quantum technology and its applications.

Exploring the importance of concentration stability in chemical reactions.

Research on potassium and calcium interactions using lasers at ultracold temperatures.

Active gels change shape and size, offering insights into biology and new material applications.

A study on helium's three-body potential and virial coefficients reveals crucial insights.

Examining how electric fields and temperature affect helical molecule behavior.

Research shows how light affects particles in liquid crystals for smart material applications.

A look at the properties and applications of self-loop graphs in various fields.

New models improve predictions of molecular interactions and transport processes.

A new method improves mass spectrum predictions for better molecule identification.

New insights reveal how temperature impacts atomic behavior in liquids.

Research reveals new insights on long-lived singlet states in nuclear spins across phases.

New methods improve understanding of materials with localized electrons and relativistic effects.

Research on foam behavior in microgravity reveals insights into bubble dynamics.

A novel approach enhances the accuracy of tunneling splittings in chemical reactions.

New techniques enhance accuracy in molecular property calculations using density functional theory.

Explore how high-energy x-ray diffraction reveals material structures at the atomic level.

A new method enhances 3D chemical imaging while reducing energy use.

Researchers investigate spontaneous movement in small active particles confined in liquids.

A look into how ultrastable glasses transition to a liquid state.

This article presents a method to study interactions between weak acids and polymers.

This article explores how liquid particles move and their unique dynamics.