Latest Articles for Molecular Chemistry

Research reveals key findings about protostar HOPS 370's molecular environment and processes.

Investigating molecular clumps and stellar feedback in the Lagoon Nebula.

Enhancing initial state preparation boosts accuracy in quantum molecular calculations.

Researchers assess aspirin forms' stability using computer modeling and machine learning.

New methods improve the speed and accuracy of drug design.

Learn how scientists study molecules in excited states using innovative light-based techniques.

New AI model LDMol enhances molecule generation using text descriptions.

Researchers study IRAS 4A2 to learn about star and planet formation.

Researchers improve quantum computing accuracy through error detection and correction methods.

Study reveals UV light impacts HNC/HCN ratios in star-forming regions.

Cometh combines discrete and continuous methods for efficient graph generation.

Exploring the formation and properties of tetramers in ultracold molecules.

Research on PAHs and hydrogen interaction reveals insights into cosmic chemistry.

Study investigates molecular behavior in AGB star envelopes and its implications.

Research on Rydberg molecules may reveal unique atomic interactions.

Examining how quantum computing influences our grasp of molecular dynamics.

Researchers study gas dynamics and chemistry in molecular clouds to better understand star formation.

A review of the Bond Polarizability Model's effectiveness in Raman spectroscopy analysis.

This study analyzes NeC70's potential energy surface and Ne atom movement.

Exploring how quantum computing simulates molecular behavior in living organisms.

Explore how hydroxyl emissions reveal disk chemistry around young stars.

FragLlama adapts language models for innovative molecular design and drug discovery.

Exploring the impact of simulations on understanding diffuse molecular clouds.

Quantum computing techniques improve calculations of molecular energies.

New approaches in drug design prioritize molecule synthesizability for better outcomes.

CLP transforms molecular data into strings to enhance drug discovery.

Researchers develop a new approach utilizing quantum devices to compute excited states efficiently.

Research reveals key roles of OCS and SO2 in star-forming regions.

Studying the formation of van der Waals molecules through three-body recombination in cold atomic gases.

New methods improve predictions of complex quantum systems using machine learning.

YbOH helps scientists investigate the electron electric dipole moment for new physics insights.

A study investigates the physical and chemical conditions essential for high-mass star formation.

This article examines the significance of HOCS+ and its implications for space chemistry.

AI methods are changing how scientists predict molecular properties for various applications.

New techniques improve efficiency in sampling and energy calculations for quantum chemistry.

Recent studies reveal lower cosmic ray ionization rates affecting star formation models.

Explore the significance of PAHs in the universe's chemical processes.

Study reveals deuteration's role in star formation within molecular clouds.

New quantum method improves molecular energy calculations significantly.

Studying sulfur isotopes reveals unique chemistry in planet-forming disks.