Your search keyword '"Haghighirad, A"' showing total 10 results

1. Route to Stable Lead-Free Double Perovskites with the Electronic Structure of CH3NH3PbI3: A Case for Mixed-Cation [Cs/CH3NH3/CH(NH2)2]2InBiBr6

Author

Feliciano Giustino, George Volonakis, Henry J. Snaith, and Amir A. Haghighirad

Subjects

Chemistry, Inorganic chemistry, Halide, 02 engineering and technology, Electronic structure, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Crystallography, Oxidation state, Oxidizing agent, General Materials Science, Double perovskite, Physical and Theoretical Chemistry, 0210 nano-technology

Abstract

During the past year, halide double perovskites attracted attention as potential lead-free alternatives to Pb-based halide perovskites. However, none of the compounds discovered so far can match the optoelectronic properties of MAPbI3 (MA = CH3NH3). Here we argue that, from the electronic structure viewpoint, the only option to make Pb-free double perovskites retaining the remarkable properties of MAPbI3 is to combine In and Bi as B(+) and B(3+) cations, respectively. While inorganic double perovskites such as Cs2InBiX6 were found to be unstable due to In(+) oxidizing into In(3+), we show that the +1 oxidation state of In becomes progressively more stable as the A-site cation changes from K to Cs. Hence, we propose the use of MA and FA [FA = CH(NH2)2] to stabilize A2InBiBr6 double perovskites. We show that the optoelectronic properties of A2InBiBr6 are remarkably similar to those of MAPbI3, and explore the mixed-cation (Cs/MA/FA)2InBiBr6 halide double perovskites.

Published

2017

2. Route to Stable Lead-Free Double Perovskites with the Electronic Structure of CH

Author

George, Volonakis, Amir Abbas, Haghighirad, Henry J, Snaith, and Feliciano, Giustino

Abstract

During the past year, halide double perovskites attracted attention as potential lead-free alternatives to Pb-based halide perovskites. However, none of the compounds discovered so far can match the optoelectronic properties of MAPbI

Published

2017

3. Cs

Author

George, Volonakis, Amir Abbas, Haghighirad, Rebecca L, Milot, Weng H, Sio, Marina R, Filip, Bernard, Wenger, Michael B, Johnston, Laura M, Herz, Henry J, Snaith, and Feliciano, Giustino

Abstract

A

Published

2017

4. Band Gaps of the Lead-Free Halide Double Perovskites Cs2BiAgCl6 and Cs2BiAgBr6 from Theory and Experiment

Author

Henry J. Snaith, Feliciano Giustino, Marina R. Filip, Sam A. J. Hillman, and Amir A. Haghighirad

Subjects

Work (thermodynamics), Chemistry, Band gap, business.industry, Halide, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Lead (geology), Semiconductor, Chemical physics, General Materials Science, Double perovskite, Physical and Theoretical Chemistry, Perturbation theory, 0210 nano-technology, business, Perovskite (structure)

Abstract

The recent discovery of lead-free halide double perovskites with band gaps in the visible represents an important step forward in the design of environmentally friendly perovskite solar cells. Within this new family of semiconductors, Cs2BiAgCl6 and Cs2BiAgBr6 are stable compounds crystallizing in the elpasolite structure. Following the recent computational discovery and experimental synthesis of these compounds, a detailed investigation of their electronic properties is warranted in order to establish their potential as optoelectronic materials. In this work, we perform many-body perturbation theory calculations and obtain high accuracy band gaps for both compounds. In addition, we report on the synthesis of Cs2BiAgBr6 single crystals, which are stable in ambient conditions. From our complementary theoretical and experimental analysis, we are able to assign the indirect character of the band gaps and obtain both experimental and theoretical band gaps of these novel semiconductors that are in close agreement.

Published

2016

5. Route to Stable Lead-Free Double Perovskites with the Electronic Structure of CH3NH3PbI3: A Case for Mixed-Cation [Cs/CH3NH3/CH(NH2)2]2InBiBr6

Author

Volonakis, George, primary, Haghighirad, Amir Abbas, additional, Snaith, Henry J., additional, and Giustino, Feliciano, additional

Published

2017

6. Unraveling the Exciton Binding Energy and the Dielectric Constant in Single-Crystal Methylammonium Lead Triiodide Perovskite

Author

Yang, Zhuo, primary, Surrente, Alessandro, additional, Galkowski, Krzysztof, additional, Bruyant, Nicolas, additional, Maude, Duncan K., additional, Haghighirad, Amir Abbas, additional, Snaith, Henry J., additional, Plochocka, Paulina, additional, and Nicholas, Robin J., additional

Published

2017

7. Cs2InAgCl6: A New Lead-Free Halide Double Perovskite with Direct Band Gap

Author

Volonakis, George, primary, Haghighirad, Amir Abbas, additional, Milot, Rebecca L., additional, Sio, Weng H., additional, Filip, Marina R., additional, Wenger, Bernard, additional, Johnston, Michael B., additional, Herz, Laura M., additional, Snaith, Henry J., additional, and Giustino, Feliciano, additional

Published

2017

8. Band Gaps of the Lead-Free Halide Double Perovskites Cs2BiAgCl6 and Cs2BiAgBr6 from Theory and Experiment

Author

Filip, Marina R., primary, Hillman, Samuel, additional, Haghighirad, Amir Abbas, additional, Snaith, Henry J., additional, and Giustino, Feliciano, additional

Published

2016

9. Lead-Free Halide Double Perovskites via Heterovalent Substitution of Noble Metals

Author

Volonakis, George, primary, Filip, Marina R., additional, Haghighirad, Amir Abbas, additional, Sakai, Nobuya, additional, Wenger, Bernard, additional, Snaith, Henry J., additional, and Giustino, Feliciano, additional

Published

2016

10. Cs 2 InAgCl 6 : A New Lead-Free Halide Double Perovskite with Direct Band Gap

Author

Michael B. Johnston, Weng Hong Sio, Amir A. Haghighirad, George Volonakis, Bernard Wenger, Rebecca L. Milot, Feliciano Giustino, Henry J. Snaith, Laura M. Herz, and Marina R. Filip

Subjects

Band gap, Inorganic chemistry, Halide, chemistry.chemical_element, FOS: Physical sciences, Phot, 02 engineering and technology, 010402 general chemistry, medicine.disease_cause, 01 natural sciences, 7. Clean energy, Bismuth, Photovoltaics, medicine, General Materials Science, Physical and Theoretical Chemistry, Thin film, Condensed Matter - Materials Science, Chemistry, business.industry, Materials Science (cond-mat.mtrl-sci), 021001 nanoscience & nanotechnology, 0104 chemical sciences, Crystallography, Direct and indirect band gaps, 0210 nano-technology, business, Ultraviolet

Abstract

A$_2$BB$^\prime$X$_6$ halide double perovskites based on bismuth and silver have recently been proposed as potential environmentally-friendly alternatives to lead-based hybrid halide perovskites. In particular, Cs$_2$BiAgX$_6$ (X = Cl, Br) have been synthesized and found to exhibit band gaps in the visible range. However, the band gaps of these compounds are indirect, which is not ideal for applications in thin film photovoltaics. Here, we propose a new class of halide double perovskites, where the B$^{3+}$ and B$^{+}$ cations are In$^{3+}$ and Ag$^{+}$, respectively. Our first-principles calculations indicate that the hypothetical compounds Cs$_2$InAgX$_6$ (X = Cl, Br, I) should exhibit direct band gaps between the visible (I) and the ultraviolet (Cl). Based on these predictions, we attempt to synthesize Cs$_2$InAgCl$_6$ and Cs$_2$InAgBr$_6$, and we succeed to form the hitherto unknown double perovskite Cs$_2$InAgCl$_6$. X-ray diffraction yields a double perovskite structure with space group $Fm\overline{3}m$. The measured band gap is 3.3 eV, and the compound is found to be photosensitive and turns reversibly from white to orange under ultraviolet illumination. We also perform an empirical analysis of the stability of Cs$_2$InAgX$_6$ and their mixed halides based on Goldschmidt's rules, and we find that it should also be possible to form Cs$_2$InAg(Cl$_{1-x}$Br$_{x}$)$_6$ for $x