Dr. Julia Kłak | Molecular Magnetism | Best Researcher Award

PHD at University of Wrocław: Wrocław, Poland

Julia Kłak is an Assistant Professor in the Faculty of Chemistry at the University of Wroclaw, Poland. She specializes in solid-state, inorganic, and physical chemistry, with a particular focus on magnetic properties, lanthanide and transition metal complexes, EPR and UV-Visible spectroscopy, and coordination chemistry. Julia has significant expertise in molecular magnetism, single-molecule magnets (SMM), single-molecule conductors (SMC), and single-molecule insulators (SMI).

Professional Profiles

• Scopus
• Orcid

Education

University of Wrocław: Wrocław, Doctor (Faculty of Chemistry)

Professional Experience

Professor (Assistant) at University of Wroclaw Institution and Department Faculty of Chemistry University of Wroclaw

Skills and Expertise

Magnetic Properties Magnetic Materials Magnetization Lanthanide Complexes Transition Metal Complexes EPR Spectroscopy UV-Visible Spectroscopy Coordination Chemistry Molecular Magnetism Single-Molecule Magnets (SMM) Single-Molecule Conductors (SMC) Single-Molecule Insulators (SMI)

Research Focuse

Julia Kłak’s research focuses on the synthesis, structural analysis, and magnetic properties of metal complexes, particularly those involving copper, zinc, and lanthanides. Her work extensively explores the effects of different ligands and co-ligands on these complexes, investigating their magnetism, coordination chemistry, and potential biological activity. This includes studies on single-molecule magnets (SMMs), heterometallic complexes, and their magnetostructural relationships. Her research integrates both experimental and theoretical approaches to understand and enhance the functional properties of these materials, contributing significantly to the fields of inorganic and solid-state chemistry.

Publications

1. A 3D MOF based on Adamantoid Tetracopper(II) and Aminophosphine Oxide Cages: Structural Features and Magnetic and Catalytic Properties, Publication date: 2021.
2. Structural and magnetic characterization of mixed-valence vanadium (IV/V) complex with {(VO)2(µ‒O)}3+ core: Theoretical and experimental insights, Publication date: 2022.
3. Multinuclear Ni(ii) and Cu(ii) complexes of a meso 6 + 6 macrocyclic amine derived from trans-1,2-diaminocyclopentane and 2,6-diformylpyridine†, Publication date: 2022.
4. Hexa- and octanuclear copper(ii) complexes with a tetraeicosaaza amine macrocycle†, Publication date: 2023.
5. Experimental and theoretical magnetostructural studies on discrete heterometallic cyanide-bridged dinuclear FeIIIMnII and tetranuclear Fe III2Cu II2 complexes bearing tripodal pyrazolyl borate and tetradentate phenolate-based ligands†‡, Publication date: 2023.
6. Atropisomers and a copper(ii) complex derived from 1,3-dimethyl-5-(8′-quinolinylazo)-6-aminouracil: structures, magnetism and biological properties†, Publication date: 2023.
7. Copper(II) complexes of 1,3-dimethyl-(5-(8′-quinolinylazo)-6-aminouracil: Structures, magnetism and biological activity, Publication date: 2024.
8. Copper(II) complexes of 1,3-dimethyl-5-(4′/3′-pyridylazo)-6-aminouracil: Structures, redox, magnetic and protein binding properties, Publication date: 2022.
9. Effect of diamagnetic Zn(ii) ions on the SMM properties of a series of trinuclear ZnDy2 and tetranuclear Zn2Dy2 (LnIII = Dy, Tb, Gd) complexes: combined experimental and theoretical studies†, Publication date: 2024.