Novel solar absorbers from phosphides: BaCd2P2 and more

Zhenkun Yuan; Diana Dahliah; Muhammad R Hasan; Gideon Kassa; Andrew Pike; Shaham Quadir; Guillermo Esparza; Sita Dugu; Romain Claes; Smitakshi Goswami; Cierra A Chandler; Yihuang Xiong; Victoria Kyveryga; Philip Yox; Gian-Marco Rignanese; Ismaila Dabo; Andriy Zakutayev; David Fenning; Obadiah G Reid; Sage Bauers; Jifeng Liu; Kirill Kovnir; Geoffroy Hautier

Novel solar absorbers from phosphides: BaCd<sub>2</sub>P<sub>2</sub> and more

ORAL

Abstract

With InP and GaP as notable examples, phosphide compounds present exciting opportunities for discovering new solar absorbers. We demonstrate this with the ternary Zintl phosphide BaCd₂P₂, a novel candidate identified from our high-throughput computational screening for stable and long carrier lifetime solar absorbers. Our extensive theoretical and experimental evidence shows that BaCd₂P₂ is highly stable and exhibits excellent optoelectronic and defect properties, including shallow low-energy intrinsic defects, bright photoluminescence, and a carrier lifetime of up to 30 ns, even in powder form. These promising properties extend to all AM₂P₂ (A=Ca, Sr, Ba, M=Zn, Cd) Zintl phosphides, which, with tunable band gaps (~1.5–2.0 eV), form a class of defect-tolerant solar absorbers suitable for both single-junction and tandem solar cells. Additionally, we will discuss our recent focused computational screening of nearly all known phosphides, which has led to a defect database for phosphides. Some interesting candidates will be presented, and, based on our data on phosphides across various structure types and chemistries, we will provide insights into the relationship between a material’s electronic structure and its defect tolerance.

^*This work was supported by the U.S. Department of Energy and used computing resources from NERSC.

March 18, 2025, 11:30 AM – March 18, 2025, 11:42 AM

Publication: [1] Z. Yuan, D. Dahliah, M. R. Hasan, G. Kassa, A. Pike, S. Quadir, R. Claes, C. Chandler, Y. Xiong, V. Kyveryga, P. Yox, G.-M. Rignanese, I. Dabo, A. Zakutayev, D. P. Fenning, O. G. Reid, S. Bauers, J. Liu, K. Kovnir, and G. Hautier, Discovery of the Zintl-phosphide BaCd2P2 as a long carrier lifetime and stable solar absorber, Joule 8, 1412 (2024)
[2] S. Quadir, Z. Yuan, G. Esparza, S. Dugu, J. Mangum, A. Pike, M. R. Hasan, G. Kassa, X. Wang, Y. Coban, J. Liu, K. Kovnir, D. P. Fenning, O. G. Reid, A. Zakutayev, G. Hautier, S. R. Bauers, Low-Temperature Synthesis of Stable CaZn2P2 Zintl Phosphide Thin Films as Candidate Top Absorbers, Adv. Energy Mater. 2402640 (2024)

Presenters

Zhenkun Yuan
- Dartmouth College

Authors

Zhenkun Yuan
- Dartmouth College
Diana Dahliah
- Université Catholique de Louvain
Muhammad R Hasan
- Iowa State University
Gideon Kassa
- Dartmouth College
Andrew Pike
- Dartmouth College
Shaham Quadir
- National Renewable Energy Laboratory
Guillermo Esparza
- UCSD
- University of California, San Diego
- Univ of California, San Diego
Sita Dugu
- National Renewable Energy Laboratory
Romain Claes
- University of Birmingham
- Université Catholique de Louvain
Smitakshi Goswami
- Dartmouth College
Cierra A Chandler
- Pennsylvania State University
Yihuang Xiong
- Dartmouth College
Victoria Kyveryga
- Iowa State University
Philip Yox
- Iowa State University
Gian-Marco Rignanese
- Universite catholique de Louvain
- Université Catholique de Louvain
Ismaila Dabo
- Carnegie Mellon University
- Pennsylvania State University
- The Pennsylvania State University
Andriy Zakutayev
- National Renewable Energy Laboratory
David Fenning
- University of California, San Diego
Obadiah G Reid
- University of Colorado, Boulder
Sage Bauers
- National Renewable Energy Laboratory
Jifeng Liu
- Dartmouth College
Kirill Kovnir
- Iowa State University
Geoffroy Hautier
- Dartmouth College