Beam damage of single semiconductor nanowires during X-ray nanobeam diffraction experiments

Hassan, Ali Al; Lähnemann, Jonas; Davtyan, Arman; Al-Humaidi, Mahmoud; Herranz, Jesús; Bahrami, Danial; Anjum, Taseer; Bertram, Florian; Dey, Arka Bikash; Geelhaar, Lutz; Pietsch, U.

doi:10.1107/s1600577520009789

Cited by 4 publications

(5 citation statements)

References 37 publications

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“…In the last two decades, extremely brilliant X-ray sources enabled a revolution in solid state chemistry by putting within the reach of diffraction-based techniques the understanding of complex structures and dynamic phenomena, down to the femtosecond timescale. 1 However, the high photon flux of modern high-brilliance facilities may degrade the sample within hours or even minutes, 2 for example when protein crystals 3 or reactive compounds 4 are studied. The lost information can be retrieved, at least to some extent, by scaling and merging data from different fresh crystals, assuming that several high-quality 5 samples are available.…”

Section: Introductionmentioning

confidence: 99%

Accurate experimental characterization of the labile N–Cl bond inN-chloro-N′-(p-fluorophenyl)-benzamidine crystal at 17.5 K

Destro

Barzaghi

Soave³

et al. 2022

CrystEngComm

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Section: Introductionmentioning

confidence: 99%

Accurate experimental characterization of the labile N–Cl bond inN-chloro-N′-(p-fluorophenyl)-benzamidine crystal at 17.5 K

Destro

Barzaghi

Soave³

et al. 2022

CrystEngComm

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“…According to ref , highly focused X-ray illumination may induce serous beam damage in nanowires. Based on the estimates of ref , we took special care to ensure that the X-ray doze is tolerable and well below the threshold which may lead to the beam damage even after 1 h of illumination.…”

Section: Resultsmentioning

confidence: 99%

In Situ Monitoring of MBE Growth of a Single Self-Catalyzed GaAs Nanowire by X-ray Diffraction

et al. 2021

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Self-catalyzed GaAs nanowires (NWs) on Si substrates are one of the superior candidates for future electronics and optoelectronics integrated with a silicon electronic platform. To bring the NWs from laboratories to industry, it is essential to further develop their basic science and engineering. In situ growth monitoring plays an important role in understanding the fundamental growth mechanisms influencing the resulting properties of NWs. We report on monitoring the growth of an individual self-catalyzed GaAs NW on a patterned Si substrate by molecular beam epitaxy utilizing a micro X-ray diffraction (XRD) setup. For the first time, the full growth run of a single NW was monitored by XRD over a time span of about 1 h. It was found that the NW growth follows two stages. In the first stage, the NW axial growth is dominant while the NW oscillates within 1° tilt angle with respect to the substrate normal. In the second stage, the NW starts to grow radially maintaining a stable orientation. These findings are explained within a dedicated model. From a technical point of view, our results demonstrate the feasibility of in situ growth experiments with NWs/nanoparticles using synchrotron radiation.

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“…To explain the existence of oxide onto the side planes, it was discovered recently that the X‐ray nanobeam causes oxide formation along the surface if the experiment has been performed in air. [ 18 ] Additional material also may come from carbon deposition during SEM. However, oxide formation and carbon deposition onto the side planes cannot explain the finding that the NW cross section deduced from nXRD after electrical impact seems to be larger compared to the as‐grown state (see NW B and NW C).…”

Section: Discussionmentioning

confidence: 99%

“…Finally, a RSM of the GaAs 111 Bragg reflection was recorded for each individual NW by varying the angle of the incident beam and simultaneously recording 2D detector images of the scattering signal. More details about the procedure to record RSMs can be found in the studies by AlHassan et al, Davtyan et al, and AlHassan et al [16][17][18]…”

Section: X-ray Diffraction Experiments (Phase I)mentioning

confidence: 99%

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Impact of Electrical Current on Single GaAs Nanowire Structure

Bahrami

AlHassan

Davtyan

et al. 2021

Physica Status Solidi (b)

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The impact of electrical current on the structure of single free‐standing Be‐doped GaAs nanowires grown on a Si 111 substrate is investigated. Single nanowires have been structurally analyzed by X‐ray nanodiffraction using synchrotron radiation before and after the application of an electrical current. The conductivity measurements on single nanowires in their as‐grown geometry have been realized via W‐probes installed inside a dual‐beam focused ion beam/scanning electron microscopy chamber. Comparing reciprocal space maps of the 111 Bragg reflection, extracted perpendicular to the nanowire growth axis before and after the conductivity measurement, the structural impact of the electrical current is evidenced, including deformation of the hexagonal nanowire cross section, tilting, and bending with respect to the substrate normal. For electrical current densities below 30 A mm−2, the induced changes in the reciprocal space maps are negligible. However, for a current density of 347 A mm−2, the diffraction pattern is completely distorted. The mean cross section of the illuminated nanowire volume is reconstructed from the reciprocal space maps before and after the application of electrical current. Interestingly, the elongation of two pairs of opposing side facets accompanied by shrinkage of the third pair of facets is found. The variations in the nanowire diameter, as well as their tilt and bending, are confirmed by scanning electron microscopy. To explain these findings, material melting due to Joule heating during voltage/current application accompanied by anisotropic deformations induced by the W‐probe is suggested.

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Beam damage of single semiconductor nanowires during X-ray nanobeam diffraction experiments

Cited by 4 publications

References 37 publications

Accurate experimental characterization of the labile N–Cl bond inN-chloro-N′-(p-fluorophenyl)-benzamidine crystal at 17.5 K

Accurate experimental characterization of the labile N–Cl bond inN-chloro-N′-(p-fluorophenyl)-benzamidine crystal at 17.5 K

In Situ Monitoring of MBE Growth of a Single Self-Catalyzed GaAs Nanowire by X-ray Diffraction

Impact of Electrical Current on Single GaAs Nanowire Structure

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