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3D flexible, conductive, and recyclable Ti<sub>3</sub>C<sub>2</sub>T<em><sub>X</sub></em> MXene-melamine foam for high-areal-capacity and long-lifetime alkali-metal anode
Shi, H., Yue, M., Zhang, C. J., Dong, Y., Lu, P., Zheng, S., … Wu, Z. S. (2020). 3D flexible, conductive, and recyclable Ti3C2TX MXene-melamine foam for high-areal-capacity and long-lifetime alkali-metal anode. ACS Nano, 14(7), 8678-8688. https://doi.org/10.1021/acsnano.0c03042
A universal length-dependent vibrational mode in graphene nanoribbons
Overbeck, J., Borin Barin, G., Daniels, C., Perrin, M. L., Braun, O., Sun, Q., … Calame, M. (2019). A universal length-dependent vibrational mode in graphene nanoribbons. ACS Nano, 13, 13083-13091. https://doi.org/10.1021/acsnano.9b05817
Adhesion control for micro- and nanomanipulation
Dejeu, J., Bechelany, M., Rougeot, P., Philippe, L., & Gauthier, M. (2011). Adhesion control for micro- and nanomanipulation. ACS Nano, 5(6), 4648-4657. https://doi.org/10.1021/nn200658z
Adsorbate-induced modification of the confining barriers in a quantum box array
Nowakowska, S., Mazzola, F., Alberti, M. N., Song, F., Voigt, T., Nowakowski, J., … Jung, T. A. (2018). Adsorbate-induced modification of the confining barriers in a quantum box array. ACS Nano, 12(1), 768-778. https://doi.org/10.1021/acsnano.7b07989
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
Bicontinuous, high-strength, and multifunctional chemical-cross-linked MXene/superaligned carbon nanotube film
Li, B., Yang, Y., Wu, N., Zhao, S., Jin, H., Wang, G., … Zeng, Z. (2022). Bicontinuous, high-strength, and multifunctional chemical-cross-linked MXene/superaligned carbon nanotube film. ACS Nano, 16(11), 19293-19304. https://doi.org/10.1021/acsnano.2c08678
Biomimetic presentation of cryptic ligands <em>via</em> single-chain nanogels for synergistic regulation of stem cells
Chen, X., Lai, N. C. H., Wei, K., Li, R., Cui, M., Yang, B., … Bian, L. (2020). Biomimetic presentation of cryptic ligands via single-chain nanogels for synergistic regulation of stem cells. ACS Nano, 14(4), 4027-4035. https://doi.org/10.1021/acsnano.9b08564
Built-in quantum dot antennas in dye-sensitized solar cells
Buhbut, S., Itzhakov, S., Tauber, E., Shalom, M., Hod, I., Geiger, T., … Zaban, A. (2010). Built-in quantum dot antennas in dye-sensitized solar cells. ACS Nano, 4(3), 1293-1298. https://doi.org/10.1021/nn100021b
Charged-molecule physics
Ernst, K. H. (2014). Charged-molecule physics. ACS Nano, 8(6), 5375-5379. https://doi.org/10.1021/nn5030219
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 CdSe quantum wells with graded shell composition for low-threshold amplified spontaneous emission and highly efficient electroluminescence
Kelestemur, Y., Shynkarenko, Y., Anni, M., Yakunin, S., De Giorgi, M. L., & Kovalenko, M. V. (2019). Colloidal CdSe quantum wells with graded shell composition for low-threshold amplified spontaneous emission and highly efficient electroluminescence. ACS Nano, 13(12), 13899-13909. https://doi.org/10.1021/acsnano.9b05313
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
Colloidal bismuth Nanocrystals as a model anode material for rechargeable Mg-ion batteries: atomistic and mesoscale insights
Kravchyk, K. V., Piveteau, L., Caputo, R., He, M., Stadie, N. P., Bodnarchuk, M. I., … Kovalenko, M. V. (2018). Colloidal bismuth Nanocrystals as a model anode material for rechargeable Mg-ion batteries: atomistic and mesoscale insights. ACS Nano, 12(8), 8297-8307. https://doi.org/10.1021/acsnano.8b03572
Colloidal polymers with controlled sequence and branching constructed from magnetic field assembled nanoparticles
Bannwarth, M. B., Utech, S., Ebert, S., Weitz, D. A., Crespy, D., & Landfester, K. (2015). Colloidal polymers with controlled sequence and branching constructed from magnetic field assembled nanoparticles. ACS Nano, 9(3), 2720-2728. https://doi.org/10.1021/nn5065327
Colloidal ternary telluride quantum dots for tunable phase change optics in the visible and near-infrared
Kumaar, D., Can, M., Portner, K., Weigand, H., Yarema, O., Wintersteller, S., … Yarema, M. (2023). Colloidal ternary telluride quantum dots for tunable phase change optics in the visible and near-infrared. ACS Nano, 17(7), 6985-6997. https://doi.org/10.1021/acsnano.3c01187
Colloidal tin–germanium nanorods and their Li-ion storage properties
Bodnarchuk, M. I., Kravchyk, K. V., Krumeich, F., Wang, S., & Kovalenko, M. V. (2014). Colloidal tin–germanium nanorods and their Li-ion storage properties. ACS Nano, 8(3), 2360-2368. https://doi.org/10.1021/nn4058227
Colloidal transformations in MS2 virus particles: driven by pH, influenced by natural organic matter
Watts, S., Julian, T. R., Maniura-Weber, K., Graule, T., & Salentinig, S. (2020). Colloidal transformations in MS2 virus particles: driven by pH, influenced by natural organic matter. ACS Nano, 14(2), 1879-1887. https://doi.org/10.1021/acsnano.9b08112
Complex interplay and hierarchy of interactions in two-dimensional supramolecular assemblies
Cañas-Ventura, M. E., Aït-Mansour, K., Ruffieux, P., Rieger, R., Müllen, K., Brune, H., & Fasel, R. (2011). Complex interplay and hierarchy of interactions in two-dimensional supramolecular assemblies. ACS Nano, 5(1), 457-469. https://doi.org/10.1021/nn102164g
Conducting and lithiophilic MXene/graphene frameworks for high-capacity, dendrite-free lithium-metal anodes
Shi, H., Zhang, C. (J. ), Lu, P., Dong, Y., Wen, P., & Wu, Z. S. (2019). Conducting and lithiophilic MXene/graphene frameworks for high-capacity, dendrite-free lithium-metal anodes. ACS Nano, 13(12), 14308-14318. https://doi.org/10.1021/acsnano.9b07710
Conductive metal-organic frameworks with tunable dielectric properties for boosting electromagnetic wave absorption
Zhang, X., Tian, X. L., Qin, Y., Qiao, J., Pan, F., Wu, N., … Zeng, Z. (2023). Conductive metal-organic frameworks with tunable dielectric properties for boosting electromagnetic wave absorption. ACS Nano, 17(13), 12510-12518. https://doi.org/10.1021/acsnano.3c02170
 

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