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Paper detail

Effects of Two-Dimensional Material Thickness and Surrounding Dielectric Medium on Coulomb Interactions and Excitons

We examine the impact of quantum confinement on the interaction potential between two charges in two-dimensional semiconductor nanosheets in solution. The resulting effective potential depends on two length scales, namely the thickness $d$ and an emergent length scale $d^* \equiv εd / ε_{\text{sol}}$, where $ε$ is the permittivity of the nanosheet and $ε_{\text{sol}}$ is the permittivity of the solvent. In particular, quantum confinement, and not electrostatics, is responsible for the logarithmic behavior of the effective potential for separations smaller than $d$, instead of the one-over-distance bulk Coulomb interaction. Finally, we corroborate that the exciton binding energy also depends on the two-dimensional exciton Bohr radius $a_0$ in addition to the length scales $d$ and $d^*$ and analyze the consequences of this dependence.

preprint2020arXivOpen access
F. García FlórezLaurens D. A. SiebbelesH. T. C. Stoof
cond-mat.mes-hall
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F. García FlórezLaurens D. A. SiebbelesH. T. C. Stoof

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