000076897 001__ 76897
000076897 005__ 20191127155456.0
000076897 0247_ $$2doi$$a10.1021/acs.nanolett.7b05103
000076897 0248_ $$2sideral$$a104578
000076897 037__ $$aART-2018-104578
000076897 041__ $$aeng
000076897 100__ $$0(orcid)0000-0002-6180-8113$$aCórdoba, R.
000076897 245__ $$aVertical Growth of Superconducting Crystalline Hollow Nanowires by He+ Focused Ion Beam Induced Deposition
000076897 260__ $$c2018
000076897 5060_ $$aAccess copy available to the general public$$fUnrestricted
000076897 5203_ $$aNovel physical properties appear when the size of a superconductor is reduced to the nanoscale, in the range of its superconducting coherence length (¿0). Such nanosuperconductors are being investigated for potential applications in nanoelectronics and quantum computing. The design of three-dimensional nanosuperconductors allows one to conceive novel schemes for such applications. Here, we report for the first time the use of a He+ focused-ion-beam-microscope in combination with the W(CO)6 precursor to grow three-dimensional superconducting hollow nanowires as small as 32 nm in diameter and with an aspect ratio (length/diameter) of as much as 200. Such extreme resolution is achieved by using a small He+ beam spot of 1 nm for the growth of the nanowires. As shown by transmission electron microscopy, they display grains of large size fitting with face-centered cubic WC1-x phase. The nanowires, which are grown vertically to the substrate, are felled on the substrate by means of a nanomanipulator for their electrical characterization. They become superconducting at 6.4 K and show large critical magnetic field and critical current density resulting from their quasi-one-dimensional superconducting character. These results pave the way for future nanoelectronic devices based on three-dimensional nanosuperconductors.
000076897 536__ $$9info:eu-repo/grantAgreement/ES/MINECO/MAT2014-51982-C2-2-R$$9info:eu-repo/grantAgreement/ES/MINECO/MAT2014-51982-C2-1-R$$9This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement No H2020 654360-NFFA-Europe$$9info:eu-repo/grantAgreement/EC/H2020/654360/EU/NANOSCIENCE FOUNDRIES AND FINE ANALYSIS - EUROPE/NFFA-Europe$$9info:eu-repo/grantAgreement/ES/DGA/E81$$9info:eu-repo/grantAgreement/ES/DGA/E26
000076897 540__ $$9info:eu-repo/semantics/openAccess$$aAll rights reserved$$uhttp://www.europeana.eu/rights/rr-f/
000076897 590__ $$a12.279$$b2018
000076897 591__ $$aCHEMISTRY, PHYSICAL$$b10 / 148 = 0.068$$c2018$$dQ1$$eT1
000076897 591__ $$aMATERIALS SCIENCE, MULTIDISCIPLINARY$$b19 / 293 = 0.065$$c2018$$dQ1$$eT1
000076897 591__ $$aNANOSCIENCE & NANOTECHNOLOGY$$b10 / 94 = 0.106$$c2018$$dQ1$$eT1
000076897 591__ $$aPHYSICS, CONDENSED MATTER$$b8 / 68 = 0.118$$c2018$$dQ1$$eT1
000076897 591__ $$aCHEMISTRY, MULTIDISCIPLINARY$$b16 / 172 = 0.093$$c2018$$dQ1$$eT1
000076897 591__ $$aPHYSICS, APPLIED$$b9 / 148 = 0.061$$c2018$$dQ1$$eT1
000076897 592__ $$a6.211$$b2018
000076897 593__ $$aBioengineering$$c2018$$dQ1
000076897 593__ $$aChemistry (miscellaneous)$$c2018$$dQ1
000076897 593__ $$aNanoscience and Nanotechnology$$c2018$$dQ1
000076897 593__ $$aMaterials Science (miscellaneous)$$c2018$$dQ1
000076897 593__ $$aMechanical Engineering$$c2018$$dQ1
000076897 593__ $$aCondensed Matter Physics$$c2018$$dQ1
000076897 655_4 $$ainfo:eu-repo/semantics/article$$vinfo:eu-repo/semantics/acceptedVersion
000076897 700__ $$0(orcid)0000-0002-4599-3013$$aIbarra, A.$$uUniversidad de Zaragoza
000076897 700__ $$aMailly, D.
000076897 700__ $$0(orcid)0000-0001-9566-0738$$aDe Teresa, J.M.$$uUniversidad de Zaragoza
000076897 7102_ $$12003$$2395$$aUniversidad de Zaragoza$$bDpto. Física Materia Condensa.$$cÁrea Física Materia Condensada
000076897 773__ $$g18, 2 (2018), 1379-1386$$pNano lett.$$tNano Letters$$x1530-6984
000076897 8564_ $$s931464$$uhttps://zaguan.unizar.es/record/76897/files/texto_completo.pdf$$yPostprint
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000076897 909CO $$ooai:zaguan.unizar.es:76897$$particulos$$pdriver
000076897 951__ $$a2019-11-27-15:47:56
000076897 980__ $$aARTICLE