Physics - Chemical Physics

An overview of type-I clathrates and their low thermal conductivity properties.

Research into polaritons reveals insights into light and matter interactions.

Investigating how elliptical silicon nanowires affect lithium-ion battery efficiency and stability.

Researchers are developing new, eco-friendly polymers to replace traditional plastics.

Investigating light-matter interactions and their effects on chemical reactions.

Research reveals how gas molecules transfer energy during high-temperature events.

A look at the Finke-Watkzy model's impact on chemical reactions and disease spread.

Study reveals how impurities impact nucleation in materials.

Research reveals how benzonitrile contributes to complex molecule formation in space.

A look into the properties of liquid-liquid interfaces and their importance.

A new method improves molecular interaction modeling using advanced charge representations.

New technique significantly accelerates molecular dynamics simulations by optimizing reset conditions.

A method to enhance particle searches by minimizing energy costs and time.

A look into metal-organic frameworks and their growing significance in science.

Researchers enhance imaging techniques via entangled two-photon absorption for delicate samples.

A unified method improves prediction of electron interactions in materials.

Researchers improve predictions of standard hydrogen electrode potential using machine learning.

A new approach simplifies calculations in molecular chemistry using Slater determinants.

Study reveals key reactions between carbon ions important for understanding space chemistry.

New quantum devices enhance the study of chemical dynamics and proton transfer.

This study reveals new findings on tunneling processes in asymmetric double-well systems.

A new technique allows detailed study of individual molecules without destruction.

Researchers are studying how light interacts with heavy atoms to reveal new chemical behaviors.

Discover how training-free guidance is transforming molecular generation with discrete diffusion models.

This article reviews the importance of LXC potential in material science.

New methods enhance study of molecular behavior after light absorption.

New models enhance prediction of material properties through atomic arrangements.

Machine learning models improve predictions of molecular responses to ion irradiation.

A technique that improves stochastic processes by adjusting reset rates based on current states.

Research reveals challenges in CO and oxygen interaction with MoSe material.

Exploring the unique properties and applications of lead halide perovskites in technology.

Martignac simplifies molecular simulations, enhancing reliability and collaboration among researchers.

New methods improve calculations for excited states in materials using GPUs.

Research on boron glass properties using machine learning techniques shows promise for future applications.

New studies reveal key interactions of alcohols in simplified models.

A new method simplifies feature selection in molecular simulations using graph neural networks.

AUGUR simplifies finding optimal spots for molecular attachment using advanced techniques.

Recent studies reveal capillary wave behavior in miscible fluids, challenging traditional fluid dynamics models.

Study examines sodium ion interactions within helium nanodroplets, revealing significant insights.

Exploring the methods and challenges of electrodeposition at the nanoscale.