Latest Articles for Chemistry

Explore the role of charge patchiness in particle interactions and its applications.

Explore the science behind phase transitions and their real-world applications.

Learn how molecular fingerprints help scientists compare and analyze molecules efficiently.

A look into atomic cluster expansion and its role in materials science.

Bio-xLSTM uses advanced models to analyze complex biological sequences for better science.

Discover how confined polymers behave and their impact on everyday life.

Explore methods to manage systems that undergo sudden changes.

New insights into methylene's singlet and triplet states through quantum computing techniques.

Scientists use eigenpair-splitting to solve quantum challenges efficiently.

AI agents are evolving to solve chemistry problems using specialized tools and reasoning.

Scientists use electron vortex beams to study chirality at the molecular level.

Explore the roles of these isomers in the cosmos.

Discover the dynamic world of active matter and its intriguing behaviors.

Water exhibits strange behaviors that puzzle scientists and challenge our expectations.

A look at dipole polarizabilities and their significance in heavy elements.

Scientists develop a method to study water behavior in confined areas.

Exploring the dominance of left-handedness in life's building blocks.

Cesium superoxide shows fascinating magnetic and electric behaviors in new materials research.

A simple approach to accurately predict polymer behavior.

GENzyme simplifies the creation of enzymes for various applications.

A new method improves calculations for molecular interactions, enhancing efficiency and accuracy.

Scientists merge DMRG and Coupled-Cluster methods to enhance understanding of molecular behavior.

Active noise enhances generative models for better data creation and accuracy.

An overview of graph polynomials and their significance in various fields.

A new approach to measure the ease of drug synthesis.

Exploring the impact of geometric phase effects on electronic structure methods.

Conical intersections are key in understanding molecular behaviors under light exposure.

Explore the fascinating Leidenfrost effect and how droplets behave on hot surfaces.

New methods enhance chemical simulations using quantum technology.

Exploring the new stable structure of silver fluoride and its properties.

Learn about fluid movement due to temperature differences in tiny channels.

Scientists investigate how molecules react in optical cavities influenced by ambient noise.

A simple overview of how tiny particles interact with their environment.

A study on improving energy models for halogenated compounds.

This article explores the role of XANES in understanding aluminum compounds.

DuSEGO improves GNNs by addressing over-smoothing and gradient issues.

A look into how molecules interact and the importance of energy levels.

Water's presence in space reveals its importance to cosmic chemistry and life.

How the sequence of adding components affects product quality across various fields.

Learn how reaction-diffusion models explain behavior in nature and their applications.