Latest Articles for Chemistry

Research reveals dynamics of Rydberg states in carbon dioxide.

Scientists create Livermorium, deepening our understanding of superheavy elements.

Exploring the impact of crossing changes on knot types.

Examining how active particles behave when consuming chemicals in two distinct regimes.

A novel approach to linking chemical entities with research literature using language models.

A look into number projection operators and their impact on quantum simulations.

Understanding how molecular vibrations influence polaritons can lead to innovative applications.

Learn how math aids in understanding chemical reactions and their interactions.

A new framework enhances RL simulations for complex scientific data processing.

A new model improves understanding of electrochemical interfaces through machine learning.

Researchers aim to create icosahedral quasicrystals from single-particle systems.

A fresh approach examines how charge centers affect chemical bonding.

Examining how active particles change droplet shapes and behaviors.

Research introduces a self-interaction potential to enhance Density Functional Theory predictions.

A fresh look at how nuclear movement affects material phase changes.

This article examines how large molecules form complexes and change over time.

ReactCA simulates solid-state reactions for better materials synthesis.

Study reveals new insights into methyl cyanide's role in space and life formation.

Study reveals molecular assembly effects on diamond's electrical properties.

The study of how planets influence disk chemistry during formation.

Machine learning speeds up potential energy surface calculations for molecules like ethanol.

Thiophene's light absorption reveals complex interactions, critical for technology applications.

New research highlights plasma technology's role in improving propane combustion efficiency.

Studying how engineered shapes form unique liquid crystalline materials.

This research examines how heat affects the structure of foam over time.

Study reveals how poly-phenylacetylene folds in different solvents and temperatures.

Research reveals insights into how hedgehog defects affect glass behavior under stress.

An overview of how crystals form and their significance in science.

Using language models to streamline the literature review process for researchers.

An exploration of bubble movement affected by temperature and surfactants in unique fluids.

Research reveals the chemistry of organic molecules in protostellar disks.

New approach enhances generative models for efficient compound discovery.

A new approach to improve solving linear equations with quantum computing.

New descriptors enhance predictions of chemical compounds in drug discovery and materials science.

New methods improve calculations of tunneling splittings in complex molecules.

New method enhances prediction of crystal structures in complex materials.

Examining the reliability and uncertainty in Large Language Models within chemistry.

New methods in quantum computing show promise for solving complex chemistry problems.

A look into how clusters form on scaffolds through templating aggregation.

A novel approach to improve electron interaction predictions in materials.