Latest Articles for Chemistry

Discover the intricate process behind our sense of smell and its implications.

Research reveals key chemicals in a protoplanetary disk around star HD 169142.

Research reveals how temperature alters structures in metal nanoclusters.

A deep look into the classification of electronic excitations and new methods.

Researchers combine classical methods with machine learning for better molecular predictions.

Neural networks enhance predictions of atomic interactions in scientific research.

This article explores how light influences molecular properties and chemical reactions.

Researchers use X-ray absorption spectroscopy to analyze liquid water's molecular behavior.

A machine learning model improves molecular property predictions with efficiency.

This article presents a method for simulating quantum systems in large environments.

A novel approach improves understanding of how metallic atoms interact at the atomic level.

New metrics improve synthesis success and reduce impurities in inorganic materials.

Enhancing quantum simulations with adaptive VQEs and noise reduction techniques.

Exploring how polymers react to forces and temperature changes.

Exploring the Partial Qubit Hamiltonian method for efficient molecular simulations in quantum chemistry.

A look at how particle interactions shape liquid behavior.

This research enhances methods for identifying parameters in ordinary differential equation models.

Fullerides combine carbon fullerenes and alkali metals, showcasing unique superconducting properties.

An overview of the unique movement patterns in supercooled liquids.

A new method enhances predictions using a hierarchical grammatical system.

LK-99 could change our understanding of superconductivity with its unique structure.

This article examines how active polymers behave in challenging solvent conditions.

Research reveals complexities of polymer flow behaviors and practical impacts.

Investigating the properties and potential of radium fluoride through advanced techniques.

Examining how particle movement affects chemical reaction rates.

A look into quantum spin chains and their significance in physics and chemistry.

New methods improve the accuracy of excitation energy calculations in chemistry.

Study reveals critical factors affecting lipid recovery in liposome formation.

A novel approach uses Lindbladian dynamics for efficient ground state preparation.

Recent studies reveal complex interactions of protons in acidic water.

Single circuit quantum electrodynamics devices show promise for simulating complex quantum systems.

Explore how particles move in temperature gradients and its applications.

A new model improves the accuracy of simulations in biological systems.

A novel approach enhances molecular predictions by focusing on motif connections.

LaNiO2 shows promise as a high-temperature superconductor with unique properties.

Research highlights unique chemistry of ultra-hot gas giant WASP-76 b.

Exploring the link between chirality and electron spins in modern science.

Researchers use machine learning to better understand and recreate natural patterns in chemistry.

Explore the unique interactions of chiral structures with light and magnetism.

A new method provides upper bounds for reaction rates in chemical networks.