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An all-solution-based hybrid CMOS-like quantum dot/carbon nanotube inverter
Shulga, A. G., Derenskyi, V., Salazar-Rios, J. M., Dirin, D. N., Fritsch, M., Kovalenko, M. V., … Loi, M. A. (2017). An all-solution-based hybrid CMOS-like quantum dot/carbon nanotube inverter. Advanced Materials, 29(35), 1701764 (7 pp.). https://doi.org/10.1002/adma.201701764
Atomistic description of thiostannate-capped CdSe nanocrystals: retention of four-coordinate SnS4 motif and preservation of Cd-rich stoichiometry
Protesescu, L., Nachtegaal, M., Voznyy, O., Borovinskaya, O., Rossini, A. J., Emsley, L., … Kovalenko, M. V. (2015). Atomistic description of thiostannate-capped CdSe nanocrystals: retention of four-coordinate SnS4 motif and preservation of Cd-rich stoichiometry. Journal of the American Chemical Society, 137(5), 1862-1874. https://doi.org/10.1021/ja510862c
Binary superlattices from colloidal nanocrystals and giant polyoxometalate clusters
Bodnarchuk, M. I., Erni, R., Krumeich, F., & Kovalenko, M. V. (2013). Binary superlattices from colloidal nanocrystals and giant polyoxometalate clusters. Nano Letters, 13(4), 1699-1705. https://doi.org/10.1021/nl4002475
Bright triplet excitons in caesium lead halide perovskites
Becker, M. A., Vaxenburg, R., Nedelcu, G., Sercel, P. C., Shabaev, A., Mehl, M. J., … Efros, A. L. (2018). Bright triplet excitons in caesium lead halide perovskites. Nature, 553(7687), 189-193. https://doi.org/10.1038/nature25147
Chemical design of nanocrystal solids
Kovalenko, M. V. (2013). Chemical design of nanocrystal solids. Chimia, 67(5), 316-321. https://doi.org/10.2533/chimia.2013.316
Coherent nanotwins and dynamic disorder in cesium lead halide perovskite nanocrystals
Bertolotti, F., Protesescu, L., Kovalenko, M. V., Yakunin, S., Cervellino, A., Billinge, S. J. L., … Guagliardi, A. (2017). Coherent nanotwins and dynamic disorder in cesium lead halide perovskite nanocrystals. ACS Nano, 11(4), 3819-3831. https://doi.org/10.1021/acsnano.7b00017
Colloidal CsPbX<sub>3</sub> (X = Cl, Br, I) nanocrystals 2.0: zwitterionic capping ligands for improved durability and stability
Krieg, F., Ochsenbein, S. T., Yakunin, S., ten Brinck, S., Aellen, P., Süess, A., … Kovalenko, M. V. (2018). Colloidal CsPbX3 (X = Cl, Br, I) nanocrystals 2.0: zwitterionic capping ligands for improved durability and stability. ACS Energy Letters, 3(3), 641-646. https://doi.org/10.1021/acsenergylett.8b00035
Colloidal quantum dot inks for single-step-fabricated field-effect transistors: the importance of postdeposition ligand removal
Balazs, D. M., Rizkia, N., Fang, H. H., Dirin, D. N., Momand, J., Kooi, B. J., … Loi, M. A. (2018). Colloidal quantum dot inks for single-step-fabricated field-effect transistors: the importance of postdeposition ligand removal. ACS Applied Materials and Interfaces, 10(6), 5626-5632. https://doi.org/10.1021/acsami.7b16882
Counterion-mediated ligand exchange for PbS colloidal quantum dot superlattices
Balazs, D. M., Dirin, D. N., Fang, H. H., Protesescu, L., ten Brink, G. H., Kooi, B. J., … Loi, M. A. (2015). Counterion-mediated ligand exchange for PbS colloidal quantum dot superlattices. ACS Nano, 9(12), 11951-11959. https://doi.org/10.1021/acsnano.5b04547
Crystal structure, morphology and surface termination of cyan-emissive, 6-monolayers-thick CsPbBr&lt;sub&gt;3&lt;/sub&gt; nanoplatelets from X-ray total scattering
Bertolotti, F., Nedelcu, G., Vivani, A., Cervellino, A., Masciocchi, N., Guagliardi, A., & Kovalenko, M. V. (2019). Crystal structure, morphology and surface termination of cyan-emissive, 6-monolayers-thick CsPbBr3 nanoplatelets from X-ray total scattering. ACS Nano, 13(12), 14294-14307. https://doi.org/10.1021/acsnano.9b07626
Crystallographically textured nanomaterials produced from the liquid phase sintering of Bi<sub><em>x</em></sub>Sb<sub>2–<em>x</em></sub>Te<sub>3</sub> nanocrystal building blocks
Liu, Y., Zhang, Y., Ortega, S., Ibáñez, M., Lim, K. H., Grau-Carbonell, A., … Cabot, A. (2018). Crystallographically textured nanomaterials produced from the liquid phase sintering of BixSb2–xTe3 nanocrystal building blocks. Nano Letters, 18(4), 2557-2563. https://doi.org/10.1021/acs.nanolett.8b00263
Dismantling the “red wall” of colloidal perovskites: highly luminescent formamidinium and formamidinium–cesium lead iodide nanocrystals
Protesescu, L., Yakunin, S., Kumar, S., Bär, J., Bertolotti, F., Masciocchi, N., … Kovalenko, M. V. (2017). Dismantling the “red wall” of colloidal perovskites: highly luminescent formamidinium and formamidinium–cesium lead iodide nanocrystals. ACS Nano, 11(3), 3119-3134. https://doi.org/10.1021/acsnano.7b00116
Efficient optical amplification in the nanosecond regime from formamidinium lead iodide nanocrystals
Papagiorgis, P., Manoli, A., Protesescu, L., Achilleos, C., Violaris, M., Nicolaides, K., … Itskos, G. (2018). Efficient optical amplification in the nanosecond regime from formamidinium lead iodide nanocrystals. ACS Photonics, 5(3), 907-917. https://doi.org/10.1021/acsphotonics.7b01159
Engineering color-stable blue light-emitting diodes with lead halide perovskite nanocrystals
Ochsenbein, S. T., Krieg, F., Shynkarenko, Y., Rainò, G., & Kovalenko, M. V. (2019). Engineering color-stable blue light-emitting diodes with lead halide perovskite nanocrystals. ACS Applied Materials and Interfaces, 11(24), 21655-21660. https://doi.org/10.1021/acsami.9b02472
Exciton recombination in formamidinium lead triiodide: nanocrystals versus thin films
Fang, H. H., Protesescu, L., Balazs, D. M., Adjokatse, S., Kovalenko, M. V., & Loi, M. A. (2017). Exciton recombination in formamidinium lead triiodide: nanocrystals versus thin films. Small, 13(32), 1700673 (10 pp.). https://doi.org/10.1002/smll.201700673
Exploration of near-infrared-emissive colloidal multinary lead halide perovskite nanocrystals using an automated microfluidic platform
Lignos, I., Morad, V., Shynkarenko, Y., Bernasconi, C., Maceiczyk, R. M., Protesescu, L., … Kovalenko, M. V. (2018). Exploration of near-infrared-emissive colloidal multinary lead halide perovskite nanocrystals using an automated microfluidic platform. ACS Nano, 12(6), 5504-5517. https://doi.org/10.1021/acsnano.8b01122
Fast anion-exchange in highly luminescent nanocrystals of cesium lead halide perovskites (CsPbX<SUB>3</SUB>, X = Cl, Br, I)
Nedelcu, G., Protesescu, L., Yakunin, S., Bodnarchuk, M. I., Grotevent, M. J., & Kovalenko, M. V. (2015). Fast anion-exchange in highly luminescent nanocrystals of cesium lead halide perovskites (CsPbX3, X = Cl, Br, I). Nano Letters, 15(8), 5635-5640. https://doi.org/10.1021/acs.nanolett.5b02404
Full-color tuning in binary polymer:perovskite nanocrystals organic-inorganic hybrid blends
Perulli, A., Balena, A., Fernandez, M., Nedelcu, G., Cretí, A., Kovalenko, M. V., … Anni, M. (2018). Full-color tuning in binary polymer:perovskite nanocrystals organic-inorganic hybrid blends. Applied Physics Letters, 112(17), 171904 (5 pp.). https://doi.org/10.1063/1.5020201
Genesis, challenges and opportunities for colloidal lead halide perovskite nanocrystals
Akkerman, Q. A., Rainò, G., Kovalenko, M. V., & Manna, L. (2018). Genesis, challenges and opportunities for colloidal lead halide perovskite nanocrystals. Nature Materials, 17, 394-405. https://doi.org/10.1038/s41563-018-0018-4
Guanidinium-formamidinium lead iodide: a layered perovskite-related compound with red luminescence at room temperature
Nazarenko, O., Kotyrba, M. R., Yakunin, S., Aebli, M., Rainò, G., Benin, B. M., … Kovalenko, M. V. (2018). Guanidinium-formamidinium lead iodide: a layered perovskite-related compound with red luminescence at room temperature. Journal of the American Chemical Society, 140(11), 3850-3853. https://doi.org/10.1021/jacs.8b00194
 

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