Microsymposia

MS1 - MS11

MS1- MX/Cryo-EM software development

MS2- Infection and Disease/hot structures

MS3- Crystallization and biophysical characterization

MS4- Structure in Cancer Biology

MS5- Nucleic acids and their interaction

MS6- Structural Enzymology

MS7- Membrane Proteins

MS8- Serial crystallography, obtaining structures from many crystals

MS9- Structural Biology combining methods/High resolution

MS10-Protein-carbohydrate interactions

MS11- Opportunities from combining structural biology and fold prediction

MS13 - MS18

MS13- Structural Characterization of Functional Materials

MS14- Materials for energy storage and Conversion

MS15- Mineralogical and inorganic crystallography

MS16- Time-resolved diffraction and scattering techniques

MS17- Total scattering studies and disorder

MS18- Biomineralogy and bioinspired materials

MS19 - MS26

MS19- Experimental and theoretical advances in quantum crystallography

MS20- Electric, opto‐electronic and magnetic properties from elastic and inelastic scattering plus properties of materials from quantum crystallography

MS21- Aperiodic crystals in organic and inorganic compounds and soft condensed matter

MS22- Complex order in magnetic materials

MS23- Quasicrystals and complex intermetallic materials

MS24- 3D electron diffraction

MS25- 3D electron diffraction for structure solution of organics and proteins

MS26- Quantum mechanical models for dynamics and diffuse scattering

MS27 - MS34

MS27- Minerals and Materials Under Extreme Conditions

MS28- Navigating crystal forms in molecular and pharmaceutical materials

MS29- Crystal engineering: structural flexibility, phase transitions and non-standard manipulation of synthons

MS30- Advanced porous materials: MOFs, COFs, SOFs....and what else?

MS31- Unconventional interactions or symmetries for optimized and new properties, including chirality

MS32- Advanced techniques to disclose Structure-Property Relationships

MS33- Supramolecular recognition

MS34- Crystallization Techniques and chemical reactions driven by solid state interactions

MS35 - MS42

MS35- Artificial intelligence in photon and neutron crystallography, data mining, machine learning

MS36- Software development in quantum mechanics-based methods of crystallography

MS37- Advances in Structure determination of new materials by multi‐technique approach including imaging techniques

MS38- Computations with/for Pair Distribution Functions

MS39- Crystallography at the nanoscale

MS40- Operando and in‐situ crystallographic studies

MS41- Automation in data collection and processing

MS42- Solving Structures Through Combination of Reciprocal and Direct Space Methods

MS43 - MS48

MS43- Crystallography for cultural heritage materials

MS44- Crystallography in large scale facilities

MS45- What is inside the black box?

MS46- Reproducibility in crystallography

MS47- New horizons in teaching crystallography in the 21st century

MS48- What should undergraduate students learn about crystallography?