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|Title:||Dislocation-driven growth of two-dimensional lateral quantum-well superlattices||Authors:||Zhou, W.
|Issue Date:||2018||Publisher:||American Association for the Advancement of Science||Citation:||Zhou, W., Zhang, Y.-Y., Chen, J., Li, D., Zhou, J., Liu, Z., Chisholm, M.F., Pantelides, S.T., Loh, K.P. (2018). Dislocation-driven growth of two-dimensional lateral quantum-well superlattices. Science Advances 4 (3) : eaap9096. ScholarBank@NUS Repository. https://doi.org/10.1126/sciadv.aap9096||Rights:||Attribution-NonCommercial 4.0 International||Abstract:||The advent of two-dimensional (2D) materials has led to extensive studies of heterostructures for novel applications. 2D lateralmultiheterojunctions and superlattices have been recently demonstrated, but the available growthmethods can only produce features with widths in the micrometer or, at best, 100-nm scale and usually result in rough and defective interfaces with extensive chemical intermixing. Widths smaller than 5 nm, which are needed for quantum confinement effects and quantum-well applications, have not been achieved. We demonstrate the growth of sub-2-nm quantum-well arrays in semiconductor monolayers, driven by the climb of misfit dislocations in a latticemismatched sulfide/selenide heterointerface. Density functional theory calculations provide an atom-by-atom description of the growth mechanism. The calculated energy bands reveal type II alignment suitable for quantum wells, suggesting that the structure could, in principle, be turned into a "conduit" of conductive nanoribbons for interconnects in future 2D integrated circuits via n-type modulation doping. This misfit dislocation-driven growth can be applied to different combinations of 2D monolayers with lattice mismatch, paving the way to a wide range of 2D quantum-well superlattices with controllable band alignment and nanoscale width. © 2018 The Authors, Some Rights Reserved.||Source Title:||Science Advances||URI:||https://scholarbank.nus.edu.sg/handle/10635/210884||ISSN:||23752548||DOI:||10.1126/sciadv.aap9096||Rights:||Attribution-NonCommercial 4.0 International|
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