Charge Transfer in Be−Ru Compounds

Agnarelli, Laura; Prots, Yurii; Krnel, Mitja; Svanidze, Eteri; König, Markus; Schmidt, Marcus; Burkhardt, Ulrich; Leithe‐Jasper, Andreas; Grin, Yuri

doi:10.1002/chem.202302301

Cited by 3 publications

(1 citation statement)

References 48 publications

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“…For this reason, we encourage the reader to seek out further excellent scientific reports in the area of chemical bonding (e.g. Agnarelli et al, 2023;Armbru ¨ster et al, 2023;Fronc et al, 2023;Hermann et al, 2021;Vosegaard et al, 2022;Graw et al, 2023;Ruth et al, 2023), materials science (e.g. Racioppi et al, 2020;Sorbara et al, 2022;Montisci et al, 2023: Stachowicz et al, 2023, structure-property correlation (e.g.…”

Section: Properties From Refined Charge Densities and Wavefunctionsmentioning

confidence: 99%

Current developments and trends in quantum crystallography

Krawczuk,

Genoni

2024

Acta Crystallogr B Struct Sci Cryst Eng Mater

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Quantum crystallography is an emerging research field of science that has its origin in the early days of quantum physics and modern crystallography when it was almost immediately envisaged that X-ray radiation could be somehow exploited to determine the electron distribution of atoms and molecules. Today it can be seen as a composite research area at the intersection of crystallography, quantum chemistry, solid-state physics, applied mathematics and computer science, with the goal of investigating quantum problems, phenomena and features of the crystalline state. In this article, the state-of-the-art of quantum crystallography will be described by presenting developments and applications of novel techniques that have been introduced in the last 15 years. The focus will be on advances in the framework of multipole model strategies, wavefunction-/density matrix-based approaches and quantum chemical topological techniques. Finally, possible future improvements and expansions in the field will be discussed, also considering new emerging experimental and computational technologies.

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Section: Properties From Refined Charge Densities and Wavefunctionsmentioning

confidence: 99%

Current developments and trends in quantum crystallography

Krawczuk,

Genoni

2024

Acta Crystallogr B Struct Sci Cryst Eng Mater

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Trendbericht Festkörperchemie und Materialforschung 2024

Rasche,

Schwartz

2024

Nachr Chem

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Schwerpunkte sind die Effizienz von Synthesen, deren Nachhaltigkeit oder Materialien für eine CO2‐emissionsärmere Zukunft. Neben der gesellschaftlichen Dringlichkeit, hervorgerufen durch den Klimawandel, ist dieser Umschwung dadurch motiviert, dass Drittmittel vor allem für Anwendungsforschung vergeben werden. Bei dieser lösungsorientierten Festkörperforschung verschmelzen klassische Chemie, Physik und Materialwissenschaften. Dennoch bleiben Grundlagenthemen essenziell.

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