This track focuses on the latest theoretical methods and algorithms for predicting crystal structures in solid-state chemistry. Contributions will explore innovative approaches and their applications in materials design.

This session will delve into the various electronic structure theories employed in solid-state chemistry, including density functional theory and many-body perturbation theory. Participants are encouraged to present novel applications and comparative studies of these methods.

This track examines the methodologies used in band structure calculations and their implications for understanding electronic properties of materials. Researchers are invited to share their findings on the relationship between band structure and material performance.

This session highlights the application of ab initio methods in the study of solid-state systems. Discussions will include advancements in computational techniques and their impact on material characterization.

This track focuses on the role of molecular modeling in understanding the properties and behaviors of solid-state materials. Contributions will address both theoretical advancements and practical applications in materials design.

This session explores the theoretical approaches to lattice dynamics and phonon calculations in periodic systems. Researchers are encouraged to discuss the implications of phonon behavior on thermal and mechanical properties.

This track addresses the various simulation techniques used in solid-state chemistry, including molecular dynamics and Monte Carlo methods. Participants will discuss the challenges faced in simulating complex materials and propose solutions.

This session focuses on the integration of quantum chemistry methods in the study of solid-state systems. Contributions will highlight innovative applications and theoretical advancements in this interdisciplinary field.

This track examines the intersection of computational physics and materials design, emphasizing theoretical methods that inform experimental approaches. Researchers are invited to share insights on how computational techniques can guide the development of new materials.

This session will explore theoretical methods for studying defect chemistry in solid-state materials, including the impact of defects on electronic properties. Contributions will focus on both fundamental studies and practical implications.

This track investigates the theoretical methods used to study surface chemistry in solid-state materials. Participants are encouraged to present their findings on how surface interactions influence material properties and reactivity.