Latest Articles for Chemistry

Research reveals new details about polonium's properties and potential applications.

Exploring fluorescence mechanisms in copper(II) porphyrins and the impact of temperature.

Lambda-ABF simplifies free energy calculations for chemical and biological systems.

Examining how particles in drying drops affect their shape and behavior.

Batched prediction improves outcome assessments for groups of examples in research.

This article explores the role of chirality in molecular structures and knots.

Explore the significance of graph indices in various fields.

Research integrates molecular graphs and text to improve property predictions.

This research details potential energy curves for nitrogen ions under laser interaction.

A new method improves the analysis of X-ray microspectroscopy data for better material insights.

Point defects play a crucial role in determining material behavior and applications.

This article discusses methods for solving complex reaction-diffusion systems numerically.

Exploring the secrets behind the formation and behavior of glassy materials.

Explore the role of entropy in understanding energy spread and system behavior.

Research reveals critical phase transitions of ammonia hemihydrate under extreme conditions.

New algorithm enhances energy gap calculations in quantum chemistry.

A new method enhances the analysis of relaxation data for clearer results.

Learn how cations influence DNA movement and interactions in biological and laboratory settings.

Research explores lutetium hydride's potential for superconductivity at higher pressures.

New loop-zag resonator improves sensitivity and efficiency in ESR studies.

This article examines how salt solutions behave differently in tiny channels.

Research reveals how liquids behave differently in small spaces.

Investigating how temporary bonds affect charge transfer between fullerene molecules.

Research into molybdenum-hydrogen compounds reveals possibilities for high-temperature superconductors.

Research into iron-based superconductors reveals fascinating properties and behaviors under varying conditions.

Examining how the arrangement of materials affects shape and function in bacterial compartments.

Differential Dynamic Microscopy offers a fresh approach to studying proteins.

New method improves understanding of molecular behavior under electric and magnetic fields.

Recent methods improve calculations of cohesive energy in molecular crystals.

A new method streamlines complex molecular calculations in chemistry.

This article discusses how counter-rotating interactions affect molecule-light behavior.

A look at how chemical systems challenge traditional thermodynamic laws.

Investigating how light affects molecular behavior in optical cavities.

Examining how hydrogen impacts silicon performance in devices, especially solar cells.

Examining how different salts impact water movement and interactions.

Research reveals new methods for forming triatomic molecules through light interactions.

A study examines molecular lines in the C-rich star CIT 6 and its evolution.

A look into active and passive microrheology and their significance.

MolGrapher simplifies the extraction of chemical structures from images using a graph-based approach.

Exploring how chemical microswimmers move in three dimensions and their applications.