Electronic structure robustness and design rules for 2D colloidal heterostructures

Abstract : Among the colloidal quantum dots, 2D nanoplatelets present exceptionally narrow optical features. Rationalizing the design of heterostructures of these objects is of utmost interest; however, very little work has been focused on the investigation of their electronic properties. This work is organized into two main parts. In the first part, we use 1D solving of the Schrödinger equation to extract the effective masses for nanoplatelets (NPLs) of CdSe, CdS, and CdTe and the valence band offset for NPL core/shell of CdSe/CdS. In the second part, using the determined parameters, we quantize how the spectra of the CdSe/CdS heterostructure get affected by (i) the application of an electric field and (ii) by the presence of a dull interface. We also propose design strategies to make the heterostructure even more robust.
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Journal of Applied Physics, American Institute of Physics, 2018, 123 (3), pp.035701. 〈10.1063/1.5003289〉
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Audrey Chu, Clément Livache, Sandrine Ithurria, Emmanuel Lhuillier. Electronic structure robustness and design rules for 2D colloidal heterostructures. Journal of Applied Physics, American Institute of Physics, 2018, 123 (3), pp.035701. 〈10.1063/1.5003289〉. 〈hal-01707928〉

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