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Colloidal aziridinium lead bromide quantum dots
Bodnarchuk, M. I., Feld, L. G., Zhu, C., Boehme, S. C., Bertolotti, F., Avaro, J., … Kovalenko, M. V. (2024). Colloidal aziridinium lead bromide quantum dots. ACS Nano, 18, 5684-5697. https://doi.org/10.1021/acsnano.3c11579
Quantifying Förster resonance energy transfer from single perovskite quantum dots to organic dyes
Feld, L. G., Boehme, S. C., Morad, V., Sahin, Y., Kaul, C. J., Dirin, D. N., … Kovalenko, M. V. (2024). Quantifying Förster resonance energy transfer from single perovskite quantum dots to organic dyes. ACS Nano, 18(14), 9997-10007. https://doi.org/10.1021/acsnano.3c11359
Ultrafast photoluminescence dynamics in templated self-assemblies of perovskite nanocrystals
Kobiyama, E., Urbonas, D., Bodnarchuk, M. I., Rainò, G., Mahrt, R. F., Kovalenko, M. V., & Stöferle, T. (2024). Ultrafast photoluminescence dynamics in templated self-assemblies of perovskite nanocrystals. In M. Betz & A. Y. Elezzabi (Eds.), Proceedings of SPIE: Vol. 12884. Ultrafast phenomena and nanophotonics XXVIII 2024 (p. 1288405 (5 pp.). https://doi.org/10.1117/12.3001673
Designer phospholipid capping ligands for soft metal halide nanocrystals
Morad, V., Stelmakh, A., Svyrydenko, M., Feld, L. G., Boehme, S. C., Aebli, M., … Kovalenko, M. V. (2024). Designer phospholipid capping ligands for soft metal halide nanocrystals. Nature, 626, 542-548. https://doi.org/10.1038/s41586-023-06932-6
Circularly polarized luminescence without external magnetic fields from individual CsPbBr<sub>3</sub> perovskite quantum dots
Oddi, V., Zhu, C., Becker, M. A., Sahin, Y., Dirin, D. N., Kim, T., … Stöferle, T. (2024). Circularly polarized luminescence without external magnetic fields from individual CsPbBr3 perovskite quantum dots. ACS Nano, 18, 17218-17227. https://doi.org/10.1021/acsnano.4c04392
All-perovskite multicomponent nanocrystal superlattices
Sekh, T. V., Cherniukh, I., Kobiyama, E., Sheehan, T. J., Manoli, A., Zhu, C., … Kovalenko, M. V. (2024). All-perovskite multicomponent nanocrystal superlattices. ACS Nano, 18(11), 8423-8436. https://doi.org/10.1021/acsnano.3c13062
Coupling to octahedral tilts in halide perovskite nanocrystals induces phonon-mediated attractive interactions between excitons
Yazdani, N., Bodnarchuk, M. I., Bertolotti, F., Masciocchi, N., Fureraj, I., Guzelturk, B., … Lindenberg, A. M. (2024). Coupling to octahedral tilts in halide perovskite nanocrystals induces phonon-mediated attractive interactions between excitons. Nature Physics, 20, 47-53. https://doi.org/10.1038/s41567-023-02253-7
Quantifying the size-ddependent exciton-phonon coupling strength in single lead-halide perovskite quantum dots
Zhu, C., Feld, L. G., Svyrydenko, M., Cherniukh, I., Dirin, D. N., Bodnarchuk, M. I., … Rainò, G. (2024). Quantifying the size-ddependent exciton-phonon coupling strength in single lead-halide perovskite quantum dots. Advanced Optical Materials, 12(8), 2301534 (9 pp.). https://doi.org/10.1002/adom.202301534
Single-photon superradiance in individual caesium lead halide quantum dots
Zhu, C., Boehme, S. C., Feld, L. G., Moskalenko, A., Dirin, D. N., Mahrt, R. F., … Rainò, G. (2024). Single-photon superradiance in individual caesium lead halide quantum dots. Nature, 626, 535-541. https://doi.org/10.1038/s41586-023-07001-8
Strongly confined CsPbBr<sub>3</sub> quantum dots as quantum emitters and building blocks for rhombic superlattices
Boehme, S. C., Bodnarchuk, M. I., Burian, M., Bertolotti, F., Cherniukh, I., Bernasconi, C., … Kovalenko, M. V. (2023). Strongly confined CsPbBr3 quantum dots as quantum emitters and building blocks for rhombic superlattices. ACS Nano, 17(3), 2089-2100. https://doi.org/10.1021/acsnano.2c07677
Microfluidic synthesis of monodisperse and size-tunable CsPbBr<sub>3</sub> supraparticles
Nette, J., Montanarella, F., Zhu, C., Sekh, T. V., Boehme, S. C., Bodnarchuk, M. I., … deMello, A. J. (2023). Microfluidic synthesis of monodisperse and size-tunable CsPbBr3 supraparticles. Chemical Communications, 59, 3554 (4 pp.). https://doi.org/10.1039/d3cc00093a
Enhancing multiexcitonic emission in metal-halide perovskites by quantum confinement
Strandell, D., Dirin, D., Zenatti, D., Nagpal, P., Ghosh, A., Raino, G., … Kambhampati, P. (2023). Enhancing multiexcitonic emission in metal-halide perovskites by quantum confinement. ACS Nano, 17(24), 24910-24918. https://doi.org/10.1021/acsnano.3c06497
Many-body correlations and exciton complexes in CsPbBr<sub>3</sub> quantum dots
Zhu, C., Nguyen, T., Boehme, S. C., Moskalenko, A., Dirin, D. N., Bodnarchuk, M. I., … Kovalenko, M. V. (2023). Many-body correlations and exciton complexes in CsPbBr3 quantum dots. Advanced Materials, 35(9), 2208354 (9 pp.). https://doi.org/10.1002/adma.202208354
Controlling the nucleation and growth kinetics of lead halide perovskite quantum dots
Akkerman, Q. A., Nguyen, T. P. T., Boehme, S. C., Montanarella, F., Dirin, D. N., Wechsler, P., … Kovalenko, M. V. (2022). Controlling the nucleation and growth kinetics of lead halide perovskite quantum dots. Science, 377(6613), 1406-1412. https://doi.org/10.1126/science.abq3616
Locking exciton fine-structure splitting
Rainò, G., & Kovalenko, M. V. (2022). Locking exciton fine-structure splitting. Nature Materials, 21, 1219-1220. https://doi.org/10.1038/s41563-022-01372-5
Ultra-narrow room-temperature emission from single CsPbBr<sub>3</sub> perovskite quantum dots
Rainò, G., Yazdani, N., Boehme, S. C., Kober-Czerny, M., Zhu, C., Krieg, F., … Kovalenko, M. V. (2022). Ultra-narrow room-temperature emission from single CsPbBr3 perovskite quantum dots. Nature Communications, 13, 2587 (8 pp.). https://doi.org/10.1038/s41467-022-30016-0
Room-temperature, highly pure single-photon sources from all-inorganic lead halide perovskite quantum dots
Zhu, C., Marczak, M., Feld, L., Boehme, S. C., Bernasconi, C., Moskalenko, A., … Rainò, G. (2022). Room-temperature, highly pure single-photon sources from all-inorganic lead halide perovskite quantum dots. Nano Letters, 22, 3751-3760. https://doi.org/10.1021/acs.nanolett.2c00756
Enhanced room-temperature photoluminescence quantum yield in morphology controlled J-aggregates
Anantharaman, S. B., Kohlbrecher, J., Rainò, G., Yakunin, S., Stöferle, T., Patel, J., … Heier, J. (2021). Enhanced room-temperature photoluminescence quantum yield in morphology controlled J-aggregates. Advanced Science, 8(4), 1903080 (10 pp.). https://doi.org/10.1002/advs.201903080
Perovskite-type superlattices from lead halide perovskite nanocubes
Cherniukh, I., Rainò, G., Stöferle, T., Burian, M., Travesset, A., Naumenko, D., … Kovalenko, M. V. (2021). Perovskite-type superlattices from lead halide perovskite nanocubes. Nature, 593(7860), 535-542. https://doi.org/10.1038/s41586-021-03492-5
Structural diversity in multicomponent nanocrystal superlattices comprising lead halide perovskite nanocubes
Cherniukh, I., Sekh, T. V., Rainò, G., Ashton, O. J., Burian, M., Travesset, A., … Bodnarchuk, M. I. (2021). Structural diversity in multicomponent nanocrystal superlattices comprising lead halide perovskite nanocubes. ACS Nano, 16(5), 7210-7232. https://doi.org/10.1021/acsnano.1c10702