Imaging the sub-moiré potential using an atomic single electron transistor

Klein, Dahlia; Zondiner, Uri; Keren, Amit; Birkbeck, John; Inbar, Alon; Xiao, Jiewen; Zamir, Yuval; Sidorova, Mariia; Ezzi, Mohammed M. Al; Peng, Liangtao; Watanabe, Kenji; Taniguchi, Takashi; Adam, Shaffique; Ilani, Shahal

doi:10.1038/s41586-025-10085-z

articleNatureFeb 4, 2026HYBRID OA

Imaging the sub-moiré potential using an atomic single electron transistor

DKDahlia Klein UZUri Zondiner AKAmit Keren JBJohn Birkbeck AIAlon Inbar

Weizmann Institute of Science · Technion – Israel Institute of Technology · +6 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Electrons in solids owe their properties to the periodic potential landscapes they experience. The advent of moiré lattices has revolutionized our ability to engineer such landscapes on nanometre scales, leading to numerous ground-breaking discoveries. Despite this progress, direct imaging of these electrostatic potential landscapes remains elusive. Here we introduce the atomic single electron transistor (SET), a new scanning probe that uses a single atomic defect in a van der Waals material as an ultrasensitive, high-resolution potential sensor. Built on the quantum twisting microscope (QTM) platform1, this probe leverages the capability of the QTM to form a pristine, scannable two-dimensional interface…

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Topics & keywords

Topics

Keywords

van der Waals force
Electron
Quantum
Transistor
Graphene
Symmetry (geometry)
Electrostatics
Coulomb blockade

UN Sustainable Development Goals

Sustainable cities and communities

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