Stefan Mattsson scite author profile

The cohesive energy of a-fluorine, with C2/c space group symmetry, was calculated at benchmark quality by applying the method of increments. The known experimental X-ray structure data needed to be refined, since the reported intramolecular bond length was unrealistically large. At the CCSD(T) level,i ncluding corrections for zero-point energy, the basis set superposition error,a nd extrapolatedt ot he complete basis set limit, ac ohesive energy of À8.72 kJ mol À1 was calculated, whicha grees well with the 0K-extrapolated experimental value of À8.35 kJ mol À1 . [1] Comparisono ft he C2/c structure with a Cmca structure, isotypic to that of chlorine, bromine, and iodine reveals that the origin of the different structure of solidf luorine, compared to the heavier halogens,i st he lack of significantly stabilizing s-hole interactions.I na ddition, the wave numberso ft he stretching mode in solid fluorine werec alculated at coupled cluster level and compared to newly recorded Raman spectra of condensed fluorine. Both experiment and calculation indicate as light up-shiftf or the stretching mode by 2o r5cm À1 , respectively,w ith respect to af ree F 2 molecule in the gas phase.

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Density Functional Theory Calculations of Structural, Electronic, and Magnetic Properties of the 3d Metal Trifluorides MF₃ (M = Ti‐Ni) in the Solid State

Mattsson

Paulus

2019

J Comput Chem

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We employ density functional theory with Hubbard U correction or hybrid functionals to study the series of magnetic 3d metal trifluorides MF 3 (M = Ti-Ni). Experimental lattice parameters are reproduced with an error margin of 0.5%-4.3%. Cooperative Jahn-Teller distortions are reproduced for MnF 3 , but also found in TiF 3 and CoF 3 at smaller levels compared to MnF 3 . Trends in electronic structure with respect to positions of the d bands are linked to the magnetic properties where M = Ti-Cr are weak magnetic Mott-Hubbard insulators, M = Fe-Ni are strong magnetic charge-transfer insulators and MnF 3 falls in between. Our work contributes to the characterization of the relatively unknown NiF 3 , since FeF 3 and CoF 3 have similar electronic and magnetic properties. However, NiF 3 does not show a Jahn-Teller distortion as present in CoF 3 .

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Combining Theory and Experiment to Characterize the Voltammetric Behavior of Nickel Anodes in the Simons Process

Mattsson

Senges

Riedel

et al. 2020

Chemistry A European J

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The Simons process, otherwise known as the electrochemical fluorination (ECF) method, is widely used in industry to electrolytically synthesize chemicals for various purposes. Even to this day, the exact mechanism of the ECF reaction remains unknown, but is believed to involve the formation of an anodic nickel fluoride film with highly oxidized nickel centers. In this study, experiments and density functional theory calculations are combined to characterize the initial anodic peak occurring at potentials typically required in an ECF cell. NiF2 is believed to form a passivating layer at low potentials. The calculations show that a potential of +3.1 V is required to oxidize surface Ni2+ centers to Ni3+. This is in good agreement with the measured anodic peak at +3.57 V.

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A theoretical study on the binding and electrolytic splitting of hydrogen fluoride on Ni(111) and Ni(211)

Mattsson

Paulus

2020

Phys. Chem. Chem. Phys.

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Stefan Mattsson

Polarization and angle-resolved NEXAFS of benzene adsorbed on oriented single-domain Si(001)-2×1 surfaces

The Crystal Structure of α‐F₂: Solving a 50 Year Old Puzzle Computationally

Density Functional Theory Calculations of Structural, Electronic, and Magnetic Properties of the 3d Metal Trifluorides MF₃ (M = Ti‐Ni) in the Solid State

Combining Theory and Experiment to Characterize the Voltammetric Behavior of Nickel Anodes in the Simons Process

A theoretical study on the binding and electrolytic splitting of hydrogen fluoride on Ni(111) and Ni(211)

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Stefan Mattsson

Polarization and angle-resolved NEXAFS of benzene adsorbed on oriented single-domain Si(001)-2×1 surfaces

The Crystal Structure of α‐F2: Solving a 50 Year Old Puzzle Computationally

Density Functional Theory Calculations of Structural, Electronic, and Magnetic Properties of the 3d Metal Trifluorides MF3 (M = Ti‐Ni) in the Solid State

Combining Theory and Experiment to Characterize the Voltammetric Behavior of Nickel Anodes in the Simons Process

A theoretical study on the binding and electrolytic splitting of hydrogen fluoride on Ni(111) and Ni(211)

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Resources

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The Crystal Structure of α‐F₂: Solving a 50 Year Old Puzzle Computationally

Density Functional Theory Calculations of Structural, Electronic, and Magnetic Properties of the 3d Metal Trifluorides MF₃ (M = Ti‐Ni) in the Solid State