Layered alkali-copper selenides: Deciphering thermoelectric properties and reaction pathways for nanostructuring β-CsCu5Se3
Patil NN, Wu R, Fiedler C, Kapuria N, Nan B, Jakhar N, Cabot A, Ibáñez M, Ryan KM, Ganose AM, Singh S. 2026. Layered alkali-copper selenides: Deciphering thermoelectric properties and reaction pathways for nanostructuring β-CsCu5Se3. ACS Energy Letters. 11(1), 481–488.
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Journal Article
| Published
| English
Scopus indexed
Author
Patil, Niraj Nitish;
Wu, Ruiqi;
Fiedler, ChristineISTA;
Kapuria, Nilotpal;
Nan, Bingfei;
Jakhar, NavitaISTA 
;
Cabot, Andreu;
Ibáñez , MariaISTA ;
Ryan, Kevin M.;
Ganose, Alex M.;
Singh, Shalini
;
Cabot, Andreu;
Ibáñez , MariaISTA ;
Ryan, Kevin M.;
Ganose, Alex M.;
Singh, ShaliniDepartment
Abstract
Copper chalcogenides offer high charge mobility and low lattice thermal conductivity but suffer from structural instability due to dynamic Cu+ migration. Here, we report a colloidal hot-injection synthesis of ternary cesium copper selenide (CsCu5Se3) nanocrystals (NCs), achieving precise control over phase, size, and morphology through tailored precursor-ligand modulation. This strategy enabled systematic exploration of stable and metastable Cs–Cu–Se phases and mechanistic investigation of nucleation and growth, providing insight into phase modulation and dimensional control at the nanoscale. CsCu5Se3 NCs exhibit low lattice thermal conductivity (∼0.5 Wm–1K–1) and an experimental zT of 0.27 at 718 K. Complementary first-principles calculations, consistent with experimental electronic and optical responses, predict a zT of 1.05 at 1000 K. These findings elucidate the formation dynamics of CsCu5Se3 and establish ABZ (A = alkali, B = metal, Z = chalcogen) NCs as tunable platforms for advanced functional applications.
Publishing Year
Date Published
2026-01-09
Journal Title
ACS Energy Letters
Publisher
American Chemical Society
Acknowledgement
This publication has emanated from research conducted with the financial support of Taighde Éireann-Research Ireland under Grant number 22/FFP-P/11591. C.F. and M.I. would like to acknowledge the financial support of ISTA and the Werner Siemens Foundation. N.N.P. acknowledges the financial support of AMBER under grant number 12/rc/2278_p2.
Volume
11
Issue
1
Page
481-488
eISSN
IST-REx-ID
Cite this
Patil NN, Wu R, Fiedler C, et al. Layered alkali-copper selenides: Deciphering thermoelectric properties and reaction pathways for nanostructuring β-CsCu5Se3. ACS Energy Letters. 2026;11(1):481-488. doi:10.1021/acsenergylett.5c02909
Patil, N. N., Wu, R., Fiedler, C., Kapuria, N., Nan, B., Jakhar, N., … Singh, S. (2026). Layered alkali-copper selenides: Deciphering thermoelectric properties and reaction pathways for nanostructuring β-CsCu5Se3. ACS Energy Letters. American Chemical Society. https://doi.org/10.1021/acsenergylett.5c02909
Patil, Niraj Nitish, Ruiqi Wu, Christine Fiedler, Nilotpal Kapuria, Bingfei Nan, Navita Jakhar, Andreu Cabot, et al. “Layered Alkali-Copper Selenides: Deciphering Thermoelectric Properties and Reaction Pathways for Nanostructuring β-CsCu5Se3.” ACS Energy Letters. American Chemical Society, 2026. https://doi.org/10.1021/acsenergylett.5c02909.
N. N. Patil et al., “Layered alkali-copper selenides: Deciphering thermoelectric properties and reaction pathways for nanostructuring β-CsCu5Se3,” ACS Energy Letters, vol. 11, no. 1. American Chemical Society, pp. 481–488, 2026.
Patil NN, Wu R, Fiedler C, Kapuria N, Nan B, Jakhar N, Cabot A, Ibáñez M, Ryan KM, Ganose AM, Singh S. 2026. Layered alkali-copper selenides: Deciphering thermoelectric properties and reaction pathways for nanostructuring β-CsCu5Se3. ACS Energy Letters. 11(1), 481–488.
Patil, Niraj Nitish, et al. “Layered Alkali-Copper Selenides: Deciphering Thermoelectric Properties and Reaction Pathways for Nanostructuring β-CsCu5Se3.” ACS Energy Letters, vol. 11, no. 1, American Chemical Society, 2026, pp. 481–88, doi:10.1021/acsenergylett.5c02909.
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