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Spin Crossover in Iron(III) Quinolylsalicylaldiminates: The Curious Case of [Fe(qsal-F)2](Anion) | Inorganic Chemistry
Spin Crossover in Iron(III) Quinolylsalicylaldiminates: The Curious Case of [Fe(qsal-F)2](Anion) | Inorganic Chemistry

EPR of Compound I: An Illustrated Revision of the Theoretical Model | Applied Magnetic Resonance
EPR of Compound I: An Illustrated Revision of the Theoretical Model | Applied Magnetic Resonance

Optimizing Breaking Ball Shape Through Data-Driven Pitch Design, Part II
Optimizing Breaking Ball Shape Through Data-Driven Pitch Design, Part II

Spin-symmetrised structures and vibrational frequencies of iron–sulfur clusters - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/D0CP01591A
Spin-symmetrised structures and vibrational frequencies of iron–sulfur clusters - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/D0CP01591A

Reversible Single-Crystal-to-Single-Crystal Transformations in a salEen Fe(III) Spin Crossover Sponge | Crystal Growth & Design
Reversible Single-Crystal-to-Single-Crystal Transformations in a salEen Fe(III) Spin Crossover Sponge | Crystal Growth & Design

Spin-symmetrised structures and vibrational frequencies of iron–sulfur clusters - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/D0CP01591A
Spin-symmetrised structures and vibrational frequencies of iron–sulfur clusters - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/D0CP01591A

Spin-Polarized Calculations for bcc Fe - exciting
Spin-Polarized Calculations for bcc Fe - exciting

Spin-Polarized Calculations for bcc Fe - exciting
Spin-Polarized Calculations for bcc Fe - exciting

Spin - abinit
Spin - abinit

Spin - abinit
Spin - abinit

Quantitative analysis of magnetic spin and orbital moments from an oxidized iron (1 1 0) surface using electron magnetic circular dichroism | Scientific Reports
Quantitative analysis of magnetic spin and orbital moments from an oxidized iron (1 1 0) surface using electron magnetic circular dichroism | Scientific Reports

Spin-orbit coupling — GPAW
Spin-orbit coupling — GPAW

Prediction of unconventional magnetism in doped FeSb2 | PNAS
Prediction of unconventional magnetism in doped FeSb2 | PNAS

Spin-Polarized Calculations for bcc Fe - exciting
Spin-Polarized Calculations for bcc Fe - exciting

Monitoring Fe(II) Spin-State Equilibria via Eu(III) Luminescence in Molecular Complexes: Dream or Reality? | Inorganic Chemistry
Monitoring Fe(II) Spin-State Equilibria via Eu(III) Luminescence in Molecular Complexes: Dream or Reality? | Inorganic Chemistry

Crystallographic Detection of the Spin State in FeIII Complexes | Crystal Growth & Design
Crystallographic Detection of the Spin State in FeIII Complexes | Crystal Growth & Design

Atomistic Spin Dynamics | SpringerLink
Atomistic Spin Dynamics | SpringerLink

Spin-orbit coupling — GPAW
Spin-orbit coupling — GPAW

Monitoring Fe(II) Spin-State Equilibria via Eu(III) Luminescence in Molecular Complexes: Dream or Reality? | Inorganic Chemistry
Monitoring Fe(II) Spin-State Equilibria via Eu(III) Luminescence in Molecular Complexes: Dream or Reality? | Inorganic Chemistry

Galaxy Tab S7 FE, 128GB, Mystic SIlver (WiFi) Tablets - SM-T733NZSEXAR | Samsung US
Galaxy Tab S7 FE, 128GB, Mystic SIlver (WiFi) Tablets - SM-T733NZSEXAR | Samsung US

Elucidation of the Fe(iv)=O intermediate in the catalytic cycle of the halogenase SyrB2 | Nature
Elucidation of the Fe(iv)=O intermediate in the catalytic cycle of the halogenase SyrB2 | Nature

Spin-Polarized Calculations for bcc Fe - exciting
Spin-Polarized Calculations for bcc Fe - exciting

A study on the relationship of magnetic moments orientation in L10 FePt network nanostructured film by electron energy-loss magnetic chiral dichroism using semi-core excitation spectra - ScienceDirect
A study on the relationship of magnetic moments orientation in L10 FePt network nanostructured film by electron energy-loss magnetic chiral dichroism using semi-core excitation spectra - ScienceDirect