AI Article Synopsis
- Understanding disorder in nanotechnology is crucial, with traditional views attributing it to local fluctuations in material properties like composition and strain.
- This study introduces a novel source of disorder originating from changes in the Coulomb interaction due to variations in the external dielectric environment, particularly in two-dimensional semiconductors.
- Moderate fluctuations in the dielectric environment can significantly affect the bandgap and exciton binding energies, highlighting the importance of dielectric disorder on the optical and transport characteristics of nanoscale materials.
Article Abstract
Understanding and controlling disorder is key to nanotechnology and materials science. Traditionally, disorder is attributed to local fluctuations of inherent material properties such as chemical and structural composition, doping or strain. Here, we present a fundamentally new source of disorder in nanoscale systems that is based entirely on the local changes of the Coulomb interaction due to fluctuations of the external dielectric environment. Using two-dimensional semiconductors as prototypes, we experimentally monitor dielectric disorder by probing the statistics and correlations of the exciton resonances, and theoretically analyse the influence of external screening and phonon scattering. Even moderate fluctuations of the dielectric environment are shown to induce large variations of the bandgap and exciton binding energies up to the 100 meV range, often making it a dominant source of inhomogeneities. As a consequence, dielectric disorder has strong implications for both the optical and transport properties of nanoscale materials and their heterostructures.
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| http://dx.doi.org/10.1038/s41565-019-0520-0 | DOI Listing |
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