Latest Articles for Chemistry

Researchers successfully cool fermionic calcium monodeuteride using laser techniques.

This article discusses improvements in self-interaction correction methods within density-functional theory.

Learn how excited states impact materials and reactions.

A new algorithm improves accuracy in simulating particle movement in fluids.

New methods enhance preparation and measurement of polar molecules for scientific applications.

An overview of how gases mix, move, and affect our daily lives.

This article explains how scientists study key ions in water using computational methods.

A new method solves complex quantum problems more efficiently using quantum computers.

Examining isotopologues offers potential insights into life beyond Earth.

A new method enhances molecule-caption translation using Large Language Models.

MolNexTR improves recognition of chemical structures from images with advanced techniques.

Discover how optical cavities change molecular behaviors and chemical reactions.

Researchers reveal new findings about water's liquid phases under varying conditions.

A novel approach enhances predictions of chemical reactions using machine learning.

Research improves measurement techniques in strong field ionization for attosecond science.

This study examines the X-ray absorption spectra of ammonia and ammonium in aqueous environments.

A new approach improves multiscale modeling accuracy and efficiency.

Study reveals how cavities influence chemical reactions through temperature and light.

A deep look into the mysteries of glass behavior during cooling.

Explore the function and significance of pulsed electron guns in research.

Exploring the benefits of qudits for simulating complex quantum systems.

Examining how membranes shaped the early stages of life on Earth.

Examining how glass deforms and fails when subjected to stress.

Exploring how cDFT enhances our understanding of fluid interactions and solvation.

Study reveals glass structure changes and behaviors when heated.

TrustMol enhances molecular design by improving interpretability and reliability.

Study reveals how memory influences outcomes in competitive events across various fields.

Analyzing cyclobutanone's behavior under laser light to predict chemical transformations.

Examining how water density changes near surfaces that repel it.

This article discusses improving the Bloch-Redfield equation for open quantum systems.

IQM SparkTM enhances learning and research in quantum technology with hands-on experience.

Research reveals how atomic movement influences electron emission in molecules.

Molecular shapes impact drug design and interactions.

Research on droplets reveals how living materials respond to their environments.

New methods enhance analysis of aqueous sulfuric acid using machine learning techniques.

This study examines the unique behavior of Janus colloids in mixtures and their interactions.

New techniques allow precise control over tiny particles using light.

Examining how cyclobutanone reacts under light exposure using simulations.

Studying how cyclobutanone reacts to light reveals key insights into photochemistry.

Examining how cyclobutanone reacts when exposed to light.