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Valence and conduction band tuning in halide perovskites for solar cell applications

Meloni, S ; Sharif University of Technology | 2016

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  1. Type of Document: Article
  2. DOI: 10.1039/c6ta04949d
  3. Publisher: Royal Society of Chemistry , 2016
  4. Abstract:
  5. We performed density functional calculations aimed at identifying the atomistic and electronic structure origin of the valence and conduction band, and band gap tunability of halide perovskites ABX3 upon variations of the monovalent and bivalent cations A and B and the halide anion X. We found that the two key ingredients are the overlap between atomic orbitals of the bivalent cation and the halide anion, and the electronic charge on the metal center. In particular, lower gaps are associated with higher negative antibonding overlap of the states at the valence band maximum (VBM), and higher charge on the bivalent cation in the states at the conduction band minimum (CBM). Both VBM orbital overlap and CBM charge on the metal ion can be tuned over a wide range by changes in the chemical nature of A, B and X, as well as by variations of the crystal structure. On the basis of our results, we provide some practical rules to tune the valence band maximum, respectively the conduction band minimum, and thus the band gap in this class of materials
  6. Keywords:
  7. Conduction bands ; Crystal atomic structure ; Crystal structure ; Electronic structure ; Energy gap ; Metal ions ; Metals ; Perovskite ; Perovskite solar cells ; Positive ions ; Quantum chemistry ; Solar cells ; Valence bands ; Bivalent cations ; Chemical nature ; Conduction-band minimum ; Electronic charges ; Halide perovskites ; Orbital overlap ; Solar-cell applications ; Valence-band maximums ; Metal halides
  8. Source: Journal of Materials Chemistry A ; Volume 4, Issue 41 , 2016 , Pages 15997-16002 ; 20507488 (ISSN)
  9. URL: http://pubs.rsc.org/en/Content/ArticleLanding/2016/TA/C6TA04949D#!divAbstract