Friction and work function oscillatory behavior for an even and odd number of layers in polycrystalline mos 2.Nanoscale, 10(17):8304–8312

Francesco Lavini, Annalisa Calò, Yang Gao, Edoardo Albisetti, Tai-De Li, Tengfei Cao, Guoqing Li, Linyou Cao, Carmela Aruta, Elisa Riedo · 2018

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Nanoscale mapping of stacking-dependent work function and local photoresponse in CVD-grown MoS2 bilayers by KPFM

cond-mat.mes-hall · 2026-04-13 · unverdicted · novelty 4.0

KPFM shows work function rising with layer number in MoS2 bilayers, with larger differences in AB stacking due to stronger interlayer coupling, plus n-type photogating from substrate effects and surface traps.

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Nanoscale mapping of stacking-dependent work function and local photoresponse in CVD-grown MoS2 bilayers by KPFM cond-mat.mes-hall · 2026-04-13 · unverdicted · none · ref 52
KPFM shows work function rising with layer number in MoS2 bilayers, with larger differences in AB stacking due to stronger interlayer coupling, plus n-type photogating from substrate effects and surface traps.

Friction and work function oscillatory behavior for an even and odd number of layers in polycrystalline mos 2.Nanoscale, 10(17):8304–8312

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