Bibliographic Details
| Title: |
Phyllosilicates as earth-abundant layered materials for electronics and optoelectronics: Prospects and challenges in their ultrathin limit. |
| Authors: |
Barcelos, Ingrid D.1 (AUTHOR) ingrid.barcelos@lnls.br, de Oliveira, Raphaela1,2 (AUTHOR), Schleder, Gabriel R.3 (AUTHOR), Matos, Matheus J. S.4 (AUTHOR), Longuinhos, Raphael5 (AUTHOR), Ribeiro-Soares, Jenaina5 (AUTHOR), Barboza, Ana Paula M.4 (AUTHOR), Prado, Mariana C.4 (AUTHOR), Pinto, Elisângela S.6 (AUTHOR), Gobato, Yara Galvão7 (AUTHOR), Chacham, Hélio2 (AUTHOR), Neves, Bernardo R. A.2 (AUTHOR), Cadore, Alisson R.3 (AUTHOR) alisson.cadore@lnnano.cnpem.br |
| Superior Title: |
Journal of Applied Physics. 9/7/2023, Vol. 134 Issue 9, p1-17. 17p. |
| Subject Terms: |
*OPTOELECTRONICS, *ELECTRONIC materials, *PHYLLOSILICATES, *SCIENTIFIC community, *HETEROSTRUCTURES, *MINERALS |
| Abstract: |
Phyllosilicate minerals are an emerging class of naturally occurring layered insulators with large bandgap energy that have gained attention from the scientific community. This class of lamellar materials has been recently explored at the ultrathin two-dimensional level due to their specific mechanical, electrical, magnetic, and optoelectronic properties, which are crucial for engineering novel devices (including heterostructures). Due to these properties, phyllosilicate minerals can be considered promising low-cost nanomaterials for future applications. In this Perspective article, we will present relevant features of these materials for their use in potential 2D-based electronic and optoelectronic applications, also discussing some of the major challenges in working with them. [ABSTRACT FROM AUTHOR] |
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| Database: |
Academic Search Premier |
