Advancing Molecular Magnetism and Material Science
Discover Q²M³’s dedication to pioneering quantum chemical research focused on magnetic exchange, spin–orbit phenomena, and functional materials, driving innovation through cutting-edge methodologies.
Cutting-Edge Studies in Quantum Magnetism
Explore our advanced methodologies in quantum chemistry, unveiling the magnetic exchange and spin–orbit phenomena that define molecular materials.
Magnetic Exchange Interactions
Investigating the fundamental coupling mechanisms that govern molecular magnetism through precise quantum-chemical models.
Spin–Orbit Coupling Effects
Analyzing the impact of relativistic effects on magnetic behavior using state-of-the-art multireference ab initio techniques.
Structure–Property Relationships
Elucidating how molecular structure influences magnetic and functional properties to guide the design of novel materials.
Insights from Our Research Endeavors
Discover our detailed research methodologies, illustrating how we unravel molecular magnetism and functional materials.
Unveiling Breakthroughs in Molecular Magnetism
This study presents how advanced quantum-chemical methods revealed critical magnetic exchange interactions, enhancing material design.
Advancing Quantum Chemistry Through Innovation
Explore how we tackled complex spin–orbit effects and refined computational models for precise material property predictions.
Enhancing Material Functionality via Quantum Insights
This research highlights applications of DFT and multireference ab initio approaches to optimize molecular magnets and related materials.
