C. Wiemann scite author profile

In thin films of mixed ionic electronic conductors sandwiched by two ion-blocking electrodes, the homogeneous migration of ions and their polarization will modify the electronic carrier distribution across the conductor, thereby enabling homogeneous resistive switching. Here we report non-filamentary memristive switching based on the bulk oxide ion conductivity of amorphous GaO x (xB1.1) thin films. We directly observe reversible enrichment and depletion of oxygen ions at the blocking electrodes responding to the bias polarity by using photoemission and transmission electron microscopies, thus proving that oxygen ion mobility at room temperature causes memristive behaviour. The shape of the hysteresis I-V curves is tunable by the bias history, ranging from narrow counter figure-eight loops to wide hysteresis, triangle loops as found in the mathematically derived memristor model. This dynamical behaviour can be attributed to the coupled ion drift and diffusion motion and the oxygen concentration profile acting as a state function of the memristor.

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Time-resolved two photon photoemission electron microscopy

Schmidt

et al. 2002

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The new dedicated HAXPES beamline P22 at PETRAIII

Schlueter¹,

Gloskovskii²,

Ederer³

et al. 2019

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A new undulator beamline (P22) for hard X-ray photoelectron spectroscopy (HAXPES) was built at PETRA III (DESY, Hamburg) to meet the increasing demand for HAXPES-based techniques. It provides four special instruments for high-resolution studies of the electronic and chemical structure of functional nano-materials and catalytic interfaces, with a focus on measurements under operando and/or ambient conditions: (i) a versatile solid-state spectroscopy setup with optional wide-angle lens and in-situ electrical characterization, (ii) a HAXPEEM instrument for sub-µm spectro-microscopy applications, (iii) an ambient pressure system (> 1 bar) for operando studies of catalytic reactions and (iv) a time-of-flight spectrometer as a full-field k-microscope for measurements of the 4D spectral function ρ(E B ,k). The X-ray optics were designed to deliver high brightness photon flux within the HAXPES energy range 2.4-15 keV. An LN 2-cooled double-crystal monochromator with interchangeable pairs of Si(111) and (311) crystals is optionally combined with a double channel-cut post-monochromator to generate X-rays with variable energy bandpass adapted to the needs of the experiment. Additionally, the beam polarization can be varied using a diamond phase plate integrated into the beamline. Adaptive beam focusing is realized by Be compound refractive lenses and/or horizontally deflecting mirrors down to a spot size of ~20x17 µm 2 with a flux of up to 1.1x10 13 ph/s (for Si(111) at 6 keV).

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Insights into Nanoscale Electrochemical Reduction in a Memristive Oxide: the Role of Three‐Phase Boundaries

Lenser¹,

Patt²,

Menzel³

et al. 2014

Adv Funct Materials

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The nanoscale electro-reduction in a memristive oxide is a highly relevant fi eld for future non-volatile memory materials. Photoemission electron microscopy is used to identify the conducting fi laments and correlate them to structural features of the top electrode that indicate a critical role of the three phase boundary (electrode-oxide-ambient) for the electro-chemical reduction. Based on simulated temperature profi les, the essential role of Joule heating through localized currents for electro-reduction and morphology changes is demonstrated.

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Horizon 2020 EuPRAXIA design study

Walker

Alesini

Alexandrova

et al. 2017

J. Phys.: Conf. Ser.

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Phase propagation of localized surface plasmons probed by time-resolved photoemission electron microscopy

et al. 2007

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Expanding the view into complex material systems: From micro-ARPES to nanoscale HAXPES

Schneider

Wiemann

Patt

et al. 2012

Journal of Electron Spectroscopy and Related Phenomena

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Adsorption geometry and electronic structure of iron phthalocyanine on Ag surfaces: A LEED and photoelectron momentum mapping study

et al. 2014

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We present a comprehensive study of the adsorption behavior of iron phthalocyanine on the low-index crystal faces of silver. By combining measurements of the reciprocal space by means of photoelectron momentum mapping and low energy electron diffraction, the real space adsorption geometries are reconstructed. At monolayer coverage ordered superstructures exist on all studied surfaces containing one molecule in the unit cell in case of Ag(100) and Ag(111), and two molecules per unit cell for Ag(110). The azimuthal tilt angle of the molecules against the high symmetry directions of the substrate is derived from the photoelectron momentum maps. A comparative analysis of the momentum patterns on the substrates with different symmetry indicates that both constituents of the twofold degenerate FePc lowest unoccupied molecular orbital are occupied by charge transfer from the substrate at the interface. arXiv:1309.3476v1 [cond-mat.mtrl-sci]

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C. Wiemann

Bulk mixed ion electron conduction in amorphous gallium oxide causes memristive behaviour

Time-resolved two photon photoemission electron microscopy

The new dedicated HAXPES beamline P22 at PETRAIII

Insights into Nanoscale Electrochemical Reduction in a Memristive Oxide: the Role of Three‐Phase Boundaries

Horizon 2020 EuPRAXIA design study

Phase propagation of localized surface plasmons probed by time-resolved photoemission electron microscopy

Expanding the view into complex material systems: From micro-ARPES to nanoscale HAXPES

Adsorption geometry and electronic structure of iron phthalocyanine on Ag surfaces: A LEED and photoelectron momentum mapping study

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