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(Referência obtida automaticamente do Web of Science, por meio da informação sobre o financiamento pela FAPESP e o número do processo correspondente, incluída na publicação pelos autores.)

Theoretical and Experimental Investigation of 2D Hematite

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Autor(es):
Padilha, A. C. M. [1] ; Soares, M. [2] ; Leite, E. R. [2, 1] ; Fazzio, A. [3, 1]
Número total de Autores: 4
Afiliação do(s) autor(es):
[1] Brazilian Nanotechnol Natl Lab LNNano CNPEM, BR-13083970 Campinas, SP - Brazil
[2] Univ Fed Sao Carlos, Dept Chem, BR-13565905 Sao Carlos, SP - Brazil
[3] Fed Univ ABC, Ctr Nat & Human Sci, BR-09210580 Santo Andre - Brazil
Número total de Afiliações: 3
Tipo de documento: Artigo Científico
Fonte: Journal of Physical Chemistry C; v. 123, n. 26, p. 16359-16365, JUL 4 2019.
Citações Web of Science: 0
Resumo

Novel two-dimensional non-van der Waals materials have been reported, boosting efforts to probe their properties and identify key applications. In this work, we report the synthesis, by means of a novel route via sonication of synthetic hematite, and characterization by transmission electron and atomic force microscopy of samples composed of two-dimensional hematite ({[}001]-cut layered alpha-Fe2O3). Microscopy images show a layered material with a handful of possible crystalline orientations, of which the {[}001] is the most abundant, presenting thickness of up to approximately 100 nm. Next, we employed first-principles calculations to study their structural stability and evaluate their thickness distribution. The stability of single, double, and triple layered structures is confirmed by phonon spectra and the formation energy is obtained, pointing out to the possibility of few layers, freestanding, stable samples. Further statistical modeling suggests that even though such thin samples are stable, their abundance is very small in comparison to thicker layers. We show that the antiferromagnetic ordering of the bulk phase is preserved in the nanostructured material, from the double-layered sample onward; however, a nonzero magnetization arises due to distinct localized moments in surface Fe atoms. Finally, our calculated band structures present narrower gaps in the layered structures in comparison to the bulk, and a charge-trapping acceptor level is identified at the surface Fe atoms. (AU)

Processo FAPESP: 17/02317-2 - Interfaces em materiais: propriedades eletrônicas, magnéticas, estruturais e de transporte
Beneficiário:Adalberto Fazzio
Linha de fomento: Auxílio à Pesquisa - Temático
Processo FAPESP: 18/05565-0 - Superfícies em semi-metal de Weyl
Beneficiário:Antonio Cláudio Michejevs Padilha
Linha de fomento: Bolsas no Brasil - Pós-Doutorado