Scope 

Over the past two decades, magnetic nanomaterials have attracted the interest of considerable scientific, and industrial researchers. This is due to their unique magnetic properties and ability to be chemically functionalized for interaction with biological, and/or chemical entities. Under alternating magnetic fields, these nanomaterials exhibit dynamical magnetization responses, which deploy high interesting features with respect to other nanoscale systems. Indeed, their magnetization dynamics underpin key phenomena—including AC field-induced heating, field-driven relaxation, and enhanced surface interactions—that enable a wide range of emerging applications. Understanding these dynamical behaviour is essential for optimizing magnetic losses, improving magnetic transduction strategies, and moving forward applications in imaging, sensing and energy conversion.

The International Workshop of Dynamical Magnetization Phenomena in Nanomaterials 2026 focuses on the following topics:

• Synthesis, functionalization, bioconjugation, and surface engineering of magnetic nanomaterials for exploiting dynamical magnetization                  phenomena.                  

• Magnetic nanomaterials for magnetic particle imaging.

• Magnetic nanomaterials for magnetic losses applications in  cancer treatment, catalysis, environmental applications, among others.

• Magnetic nanomaterials for transducing : biomolecular specific recognition, chemical trapping and transformation, gas trapping, chemical, electrostatic interactions, protein conformation changes, among others.

 • In silico testing: computer modelling of nanomaterial dynamical magnetization phenomena for applications in medicine and biology.

 • Metrology and standardisation of dynamical magnetization characterization in magnetic nanomaterials.