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Editorial for the Special Issue on Computational Quantum Physics and Chemistry of Nanomaterials
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SYSNO ASEP 0537469 Druh ASEP J - Článek v odborném periodiku Zařazení RIV O - Ostatní Poddruh J Článek ve WOS Název Editorial for the Special Issue on Computational Quantum Physics and Chemistry of Nanomaterials Tvůrce(i) Šob, Mojmír (UFM-A) RID, ORCID Celkový počet autorů 1 Číslo článku 2395 Zdroj.dok. Nanomaterials. - : MDPI
Roč. 10, č. 12 (2020)Poč.str. 2 s. Jazyk dok. eng - angličtina Země vyd. CH - Švýcarsko Klíč. slova Nanomaterials ; Computational Materials Science ; Quantum Physics and Chemistry Vědní obor RIV BM - Fyzika pevných látek a magnetismus Obor OECD Condensed matter physics (including formerly solid state physics, supercond.) Způsob publikování Open access Institucionální podpora UFM-A - RVO:68081723 UT WOS 000602315600001 EID SCOPUS 85097096714 DOI 10.3390/nano10122395 Anotace Nanomaterials have become increasingly important both in basic research and in applications. Some properties may be understood only at the level of the quantum mechanical study of these materials. The purpose of this Special Issue is to advance our fundamental understanding of the structure and technologically important properties of nanomaterials with the help of computational quantum solid-state physics and chemistry. There is no doubt that quantum mechanical approaches are indispensable in comprehensive studies of nanomaterials and will be increasingly crucial in the future. Of course, this field is too extensive and too diverse to be described in a single volume. Nevertheless, this Special Issue provides at least a partial snapshot of the state of the art of computational quantum mechanical studies of nanomaterials and covers some recent advances and problems.
The scope of the articles included in this Special Issue is quite diverse, including adsorption of gas molecules on nanoclusters [1], domain structure of magnetically doped topological insulators [2], properties of dye-sensitized solar cells [3], energetics of silver decahedron nanoparticles [4], the effect of the size and shape on the surface energy of Au nanoparticles [5], critical size of ferroelectric SnTe low-dimensional nanostructures [6], the effect of vacancies on grain boundary segregation in ferromagnetic nickel [7], generalized stacking-fault energy in selected high-entropy alloys [8], phase transition of cesium lead halide perovskite nanocrystals [9], structural evolution of AlN nanoclusters [10] and the shock sensitivity of selected energetic materials [11].
In all these cases, application of the quantum methods was indispensable to determine how various features of atomic configuration of these materials are reflected in their properties and experimentally ascertained quantities.
In summary, this Special Issue of Nanomaterials collects a series of original research articles providing new insight into the application of computational quantum physics and chemistry in research on nanomaterials. It illustrates the extension and diversity of the field and indicates some future directions. I am confident that this Special Issue will provide the reader with an overall view of the latest prospects in this fast evolving and cross-disciplinary field.Pracoviště Ústav fyziky materiálu Kontakt Yvonna Šrámková, sramkova@ipm.cz, Tel.: 532 290 485 Rok sběru 2021 Elektronická adresa https://www.mdpi.com/2079-4991/10/12/2395
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