Peter S. Neu scite author profile

Peter S. Neu

3Publications

35Citation Statements Received

132Citation Statements Given

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124

Affiliations

Leiden University, Huygens Institute for History and Culture of the Netherlands

Publications

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Label-Free Plasmonic Detection of Untethered Nanometer-Sized Brownian Particles

2020

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Optical detection of individual nanometer-sized analytes, virus particles, and protein molecules holds great promise for understanding and control of biological samples and healthcare applications. As fluorescent labels impose restrictions on detection bandwidth and require lengthy and invasive processes, label-free optical techniques are highly desirable. Here, we introduce an optical technique capable of transforming gold nanorods commonly used as photostable labels into highly localized high-speed probes. Our method detects single untethered 5 nm diameter gold particles as they traverse subattoliter volumes in Brownian motion with a time resolution below microseconds.

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Complementary LEEM and eV-TEM for imaging and spectroscopy

et al. 2021

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Electron transmission and mean free path in molybdenum disulfide at electron-volt energies

Neu

Šiškins²,

Krasovskii³

et al. 2023

Phys. Rev. B

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In van der Waals (vdW) materials, the electron mean free path (MFP) is largely influenced by the discrete states in the unoccupied band structure. So far, the influence of these states has only been measured in graphene, while all measurements on other vdW materials lack energy resolution. Here, we present reflection and transmission spectra of freestanding, few-layered molybdenum disulfide (MoS 2 ) samples in the 0-55 eV electron range. Our measurements reveal states of enhanced electron transmissivity above the vacuum level, that correspond to the (unoccupied) density of states. We also show a full quantum-mechanical calculation that confirms a good understanding of the elastic scattering in MoS 2 . A model is developed to extract the inelastic MFP spectrum, which is a measure of the inelastic scattering cross section. As MoS 2 is a complicated system of different atomic planes, we expect that our methods generalize well to other van der Waals materials and heterostacks thereof.

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Peter S. Neu

Label-Free Plasmonic Detection of Untethered Nanometer-Sized Brownian Particles

Complementary LEEM and eV-TEM for imaging and spectroscopy

Electron transmission and mean free path in molybdenum disulfide at electron-volt energies

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