Inverted-mode STM achieves controlled C2 donation to pre-patterned sites on hydrogenated Si(100), enabling single-site, multi-site, and stepwise polyyne assembly.
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3 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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2026 3verdicts
UNVERDICTED 3representative citing papers
Artificial atoms in a gapped 2D vacuum exhibit s and p orbitals plus novel quasi-1D localized states with no real-atom counterparts.
STM imaging shows geometry of Andreev trajectories in 2D surface-state cavities controls low-energy spectra, captured by semiclassical phase accumulation.
citing papers explorer
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Atomically precise mechanosynthesis of carbon structures on hydrogenated Si(100) by inverted-mode STM
Inverted-mode STM achieves controlled C2 donation to pre-patterned sites on hydrogenated Si(100), enabling single-site, multi-site, and stepwise polyyne assembly.
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Orbitals of Artificial Atoms in a Gapped Two-Dimensional Vacuum
Artificial atoms in a gapped 2D vacuum exhibit s and p orbitals plus novel quasi-1D localized states with no real-atom counterparts.
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Imaging geometry- and phase-controlled spectra in a surface-state Andreev cavity
STM imaging shows geometry of Andreev trajectories in 2D surface-state cavities controls low-energy spectra, captured by semiclassical phase accumulation.