Your search keyword '"Sigloch F"' showing total 7 results

1. Superconducting materials and devices grown by focused ion and electron beam induced deposition

Author

Orús, P., Sigloch, F., Sangiao, S., and Teresa, J. M. de

Abstract

Since its discovery in 1911, superconductivity has represented an equally inciting and fascinating field of study in several areas of physics and materials science, ranging from its most fundamental theoretical understanding, to its practical application in different areas of engineering. The fabrication of superconducting materials can be downsized to the nanoscale by means of Focused Ion/Electron Beam Induced Deposition: nanopatterning techniques that make use of a focused beam of ions or electrons to decompose a gaseous precursor in a single step. Overcoming the need to use a resist, these approaches allow for targeted, highly-flexible nanopatterning of nanostructures with lateral resolution in the range of 10 nm to 30 nm. In this review, the fundamentals of these nanofabrication techniques are presented, followed by a literature revision on the published work that makes use of them to grow superconducting materials, the most remarkable of which are based on tungsten, niobium, molybdenum, carbon, and lead. Several examples of the application of these materials to functional devices are presented, related to the superconducting proximity effect, vortex dynamics, electric-field effect, and to the nanofabrication of Josephson junctions and nanoSQUIDs. Owing to the patterning flexibility they offer, both of these techniques represent a powerful and convenient approach towards both fundamental and applied research in superconductivity. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2022

2. Cov-MS: a community-based template assay for clinical MS-based protein detection in SARS-CoV-2 patients

Author

Van Puyvelde, B., primary, Van Uytfanghe, K., additional, Tytgat, O., additional, Van Oudenhove, L., additional, Gabriels, R., additional, Bouwmeester, R., additional, Daled, S., additional, Van Den Bossche, T., additional, Ramasamy, P., additional, Verhelst, S., additional, De Clerck, L., additional, Corveleyn, L., additional, Debunne, N., additional, Wynendaele, E., additional, De Spiegeleer, B., additional, Judak, P., additional, Roels, K., additional, De Wilde, L., additional, Van Eenoo, P., additional, Reyns, T., additional, Cherlet, M., additional, Dumont, E., additional, Debyser, G., additional, t’Kindt, R., additional, Sandra, K., additional, Gupta, S., additional, Drouin, Nicolas, additional, Harms, Amy, additional, Hankemeier, Thomas, additional, Jones, DJL, additional, Gupta, P., additional, Lane, D., additional, Lane, C.S., additional, El Ouadi, S., additional, Vincendet, JB., additional, Morrice, N., additional, Oehrle, S., additional, Tanna, N., additional, Silvester, S., additional, Hannam, S., additional, Sigloch, F., additional, Bhangu-Uhlmann, A., additional, Claereboudt, J., additional, Anderson, L., additional, Razavi, M., additional, Degroeve, S., additional, Cuypers, L., additional, Stove, C., additional, Lagrou, K., additional, Martens, G., additional, Deforce, D., additional, Martens, L., additional, Vissers, J.P.C., additional, and Dhaenens, M., additional

Published

2020

3. Klinische Ergebnisse nach der Versorgung instabiler pertrochantärer Femurfrakturen vom AO-Typ 31A2 und A3 mit PFN-A-Osteosynthese

Author

Walcher, M, Weise, K, Sigloch, F, and Ochs, U

Subjects

ddc: 610

Published

2007

4. Direct-write of tungsten-carbide nanoSQUIDs based on focused ion beam induced deposition.

Author

Sigloch F, Sangiao S, Orús P, and de Teresa JM

Abstract

NanoSQUIDs are quantum sensors that excel in detecting a small change in magnetic flux with high sensitivity and high spatial resolution. Here, we employ resist-free direct-write Ga + Focused Ion Beam Induced Deposition (FIBID) techniques to grow W-C nanoSQUIDs, and we investigate their electrical response to changes in the magnetic flux. Remarkably, FIBID allows the fast (3 min) growth of 700 nm × 300 nm nanoSQUIDs based on narrow nanobridges (50 nm wide) that act as Josephson junctions. Albeit the SQUIDs exhibit a comparatively low modulation depth and obtain a high inductance, the observed transfer coefficient (output voltage to magnetic flux change) is comparable to other SQUIDs (up to 1300 μV/ Φ 0 ), which correlates with the high resistivity of W-C in the normal state. We discuss here the potential of this approach to reduce the active area of the nanoSQUIDs to gain spatial resolution as well as their integration on cantilevers for scanning-SQUID applications., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

5. Low-resistivity, high-resolution W-C electrical contacts fabricated by direct-write focused electron beam induced deposition.

Author

Orús P, Sigloch F, Sangiao S, and De Teresa JM

Abstract

Background : The use of a focused ion beam to decompose a precursor gas and produce a metallic deposit is a widespread nanolithographic technique named focused ion beam induced deposition (FIBID). However, such an approach is unsuitable if the sample under study is sensitive to the somewhat aggressive exposure to the ion beam, which induces the effects of surface amorphization, local milling, and ion implantation, among others. An alternative strategy is that of focused electron beam induced deposition (FEBID), which makes use of a focused electron beam instead, and in general yields deposits with much lower metallic content than their FIBID counterparts. Methods : In this work, we optimize the deposition of tungsten-carbon (W-C) nanowires by FEBID to be used as electrical contacts by assessing the impact of the deposition parameters during growth, evaluating their chemical composition, and investigating their electrical response. Results : Under the optimized irradiation conditions, the samples exhibit a metallic content high enough for them to be utilized for this purpose, showing a room-temperature resistivity of 550 μΩ cm and maintaining their conducting properties down to 2 K. The lateral resolution of such FEBID W-C metallic nanowires is 45 nm. Conclusions : The presented optimized procedure may prove a valuable tool for the fabrication of contacts on samples where the FIBID approach is not advised., Competing Interests: No competing interests were disclosed., (Copyright: © 2022 Orús P et al.)

Published

2022

6. Superconducting Materials and Devices Grown by Focused Ion and Electron Beam Induced Deposition.

Author

Orús P, Sigloch F, Sangiao S, and De Teresa JM

Abstract

Since its discovery in 1911, superconductivity has represented an equally inciting and fascinating field of study in several areas of physics and materials science, ranging from its most fundamental theoretical understanding, to its practical application in different areas of engineering. The fabrication of superconducting materials can be downsized to the nanoscale by means of Focused Ion/Electron Beam Induced Deposition : nanopatterning techniques that make use of a focused beam of ions or electrons to decompose a gaseous precursor in a single step. Overcoming the need to use a resist, these approaches allow for targeted, highly-flexible nanopatterning of nanostructures with lateral resolution in the range of 10 nm to 30 nm. In this review, the fundamentals of these nanofabrication techniques are presented, followed by a literature revision on the published work that makes use of them to grow superconducting materials, the most remarkable of which are based on tungsten, niobium, molybdenum, carbon, and lead. Several examples of the application of these materials to functional devices are presented, related to the superconducting proximity effect, vortex dynamics, electric-field effect, and to the nanofabrication of Josephson junctions and nanoSQUIDs. Owing to the patterning flexibility they offer, both of these techniques represent a powerful and convenient approach towards both fundamental and applied research in superconductivity.

Published

2022

7. [Dorsal ligamentoplasty for posttraumatic scapholunate dissociation].

Author

Bajinski R, Gülke J, Mentzel M, Sigloch F, Dustmann M, and Wachter NJ

Subjects

Arthritis etiology, Arthritis prevention & control, Humans, Prospective Studies, Range of Motion, Articular, Joint Instability, Lunate Bone injuries, Lunate Bone surgery, Scaphoid Bone injuries, Scaphoid Bone surgery, Wrist Injuries complications, Wrist Injuries surgery

Abstract

Scapholunate dissociation in stages 2 and 3 may lead to posttraumatic damage if left untreated. Different types of treatment have been described, including capsulodesis, tenodesis, and others. The purpose of all procedures is to avoid palmar shift of the distal scaphoid resulting in secondary arthritis (SLAC wrist). This study aimed to evaluate a modified dorsal ligamentoplasty in second- and third-degree scapholunate dissociation in a prospective study design. Furthermore, the study aimed to find out if there is a correlation between radiological and clinical parameters at follow-up and whether or not a SLAC wrist can be avoided. From 2007 to 2011 we performed 29 dorsal ligamentoplasties in our hospital in patients with second- and third-degree scapholunate dissociation. In a prospective study design, 25 patients were followed up after an average period of 18 months. Parameters recorded preoperatively included ROM, the radiological parameters SL diastasis, SL diastasis in power grip and SL angle, the DASH score, and the VAS score. The postoperative evaluation additionally included power grip, the Mayo wrist score, and patients' subjective satisfaction. The average subjective satisfaction after surgery was good. The average postoperative ROM was 83.8 % of the ROM of the healthy wrist and decreased by 11 % compared with the preoperative level. The average postoperative grip strength was 85.7 % of the strength of the healthy hand. The VAS score was 2.7 with a significant reduction from 6.7 preoperatively. The average DASH score decreased significantly from 60 preoperatively to 22.5 postoperatively. The average Mayo wrist score after surgery was 73. All radiological parameters at follow-up were significantly better than preoperatively, although they remained in a pathological range. The Pearson correlation analysis showed no relevant correlation between clinical and radiological scores. Three cases (12 %) required revision surgery. The described modified dorsal ligamentoplasty at the carpus can be recommended in second- and third-degree scapholunate dissociation. Clinical results are comparable to other techniques, but there is only a single approach required and the complication rate is very low. The short average follow-up of 18 months must be viewed critically as the rate of SLAC wrists might be higher during longer follow-up periods., Competing Interests: Interessenskonflikte: Die Autoren geben an, dass kein Interessenkonflikt besteht., (Georg Thieme Verlag KG Stuttgart · New York.)

Published

2017