2018
DOI: 10.1007/978-3-319-75687-5_10
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Nanoscale Transport Imaging of Active Lateral Devices: Static and Frequency Dependent Modes

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Cited by 3 publications
(3 citation statements)
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“…For measurements on LAO/STO, the DC bias waveform was supplied to lateral electrodes on the sample surface while the potential distribution between device electrodes was mapped. , However, many drive schemes are possible, including directly biasing the tip (or sample) to probe bias-dependent charge dynamics through a sample or supplying the bias waveform to a light source in the case of optoelectronic measurements . This versatility is an advantage of HS-KPFM compared with related time-resolved KPFM methods, which require a dedicated device platform. The determination of CPD from the harmonic responses was done offline using the principle of DH-KPFM (see the Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…For measurements on LAO/STO, the DC bias waveform was supplied to lateral electrodes on the sample surface while the potential distribution between device electrodes was mapped. , However, many drive schemes are possible, including directly biasing the tip (or sample) to probe bias-dependent charge dynamics through a sample or supplying the bias waveform to a light source in the case of optoelectronic measurements . This versatility is an advantage of HS-KPFM compared with related time-resolved KPFM methods, which require a dedicated device platform. The determination of CPD from the harmonic responses was done offline using the principle of DH-KPFM (see the Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…This has however lead to the development of novel modes of KPFM, or related techniques, to achieve a locally and time-resolved analysis of the surface potential, charge or ionic transport phenomena. Such approaches [618,619] provide information beyond the time averaged CPD, on fast local charging, or ion dynamics and have proven useful in probing time dependent ionic transport in lateral devices [384], surface photo-voltage and charge carrier generation [371,372], as well as charge screening and ion dynamics at the solid-liquid interface [46,47].…”
Section: Time Resolved Measurementsmentioning
confidence: 99%
“…We studied local charge dynamics by using tr-KPFM with the same bias pulse sequence as shown in Figure a. This mode of tr-KPFM is well-suited for probing slow (seconds–minutes) charge dynamics. , To ease interpretation of the tr-KPFM results, we plotted data as potential profiles (Δ V ) by removing the static offsets from the CPD data (e.g., spatial variations in work function). From Figure b, Δ V traces are seen to closely resemble the macroscopic current measurement.…”
Section: Resultsmentioning
confidence: 99%