Silvia Titos‐Padilla

Publications by Year

Research Areas

Crystallization and Solubility Studies, X-ray Diffraction in Crystallography, Crystallography and molecular interactions, Magnetism in coordination complexes, Lanthanide and Transition Metal Complexes

Most-Cited Works

• → Bifunctional Hybrid SiO₂ Nanoparticles Showing Synergy between Core Spin Crossover and Shell Luminescence Properties(2011)142 cited
• → Dilution-Triggered SMM Behavior under Zero Field in a Luminescent Zn₂Dy₂ Tetranuclear Complex Incorporating Carbonato-Bridging Ligands Derived from Atmospheric CO₂ Fixation(2013)129 cited
• → Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands(2013)104 cited
• → Analysis of the Role of Peripheral Ligands Coordinated to ZnII in Enhancing the Energy Barrier in Luminescent Linear Trinuclear Zn‐Dy‐Zn Single‐Molecule Magnets(2015)95 cited
• → Effect of Ligand Substitution around the DyIII on the SMM Properties of Dual-Luminescent Zn–Dy and Zn–Dy–Zn Complexes with Large Anisotropy Energy Barriers: A Combined Theoretical and Experimental Magnetostructural Study(2016)93 cited
• → Studies on bifunctional Fe(ii)-triazole spin crossover nanoparticles: time-dependent luminescence, surface grafting and the effect of a silica shell and hydrostatic pressure on the magnetic properties(2015)80 cited
• → Decanuclear Ln₁₀ Wheels and Vertex‐Shared Spirocyclic Ln₅ Cores: Synthesis, Structure, SMM Behavior, and MCE Properties(2015)76 cited
• → Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions(2015)67 cited
• → Thermochromic sensor design based on Fe(II) spin crossover/polymers hybrid materials and artificial neural networks as a tool in modelling(2014)44 cited
• → Single-Molecule Magnet Behavior and Magnetocaloric Effect in Ferromagnetically Coupled LnIII-NiII-NiII-LnIII (LnIII = DyIII and GdIII) Linear Complexes(2014)42 cited