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Journal Abstract Search

264 related items for PubMed ID: 27666531

  • 21. Annealing-Based Electrical Tuning of Cobalt-Carbon Deposits Grown by Focused-Electron-Beam-Induced Deposition.
    Puydinger Dos Santos MV, Velo MF, Domingos RD, Zhang Y, Maeder X, Guerra-Nuñez C, Best JP, Béron F, Pirota KR, Moshkalev S, Diniz JA, Utke I.
    ACS Appl Mater Interfaces; 2016 Nov 30; 8(47):32496-32503. PubMed ID: 27933832
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  • 22. Writing 3D Nanomagnets Using Focused Electron Beams.
    Fernández-Pacheco A, Skoric L, De Teresa JM, Pablo-Navarro J, Huth M, Dobrovolskiy OV.
    Materials (Basel); 2020 Aug 26; 13(17):. PubMed ID: 32859076
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  • 25. Charged Particle-Induced Surface Reactions of Organometallic Complexes as a Guide to Precursor Design for Electron- and Ion-Induced Deposition of Nanostructures.
    Yu JC, Abdel-Rahman MK, Fairbrother DH, McElwee-White L.
    ACS Appl Mater Interfaces; 2021 Oct 20; 13(41):48333-48348. PubMed ID: 34633789
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  • 27. Low-dose patterning of platinum nanoclusters on carbon nanotubes by focused-electron-beam-induced deposition as studied by TEM.
    Ke X, Bittencourt C, Bals S, Van Tendeloo G.
    Beilstein J Nanotechnol; 2013 Oct 20; 4():77-86. PubMed ID: 23399584
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  • 33. 3D Nanoprinting via laser-assisted electron beam induced deposition: growth kinetics, enhanced purity, and electrical resistivity.
    Lewis BB, Winkler R, Sang X, Pudasaini PR, Stanford MG, Plank H, Unocic RR, Fowlkes JD, Rack PD.
    Beilstein J Nanotechnol; 2017 Oct 20; 8():801-812. PubMed ID: 28487823
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  • 34. Three-dimensional core-shell ferromagnetic nanowires grown by focused electron beam induced deposition.
    Pablo-Navarro J, Magén C, de Teresa JM.
    Nanotechnology; 2016 Jul 15; 27(28):285302. PubMed ID: 27271526
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  • 35. Synthesis of individually tuned nanomagnets for Nanomagnet Logic by direct write focused electron beam induced deposition.
    Gavagnin M, Wanzenboeck HD, Belić D, Bertagnolli E.
    ACS Nano; 2013 Jan 22; 7(1):777-84. PubMed ID: 23227975
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  • 36. Room Temperature Direct Electron Beam Lithography in a Condensed Copper Carboxylate.
    Berger L, Jurczyk J, Madajska K, Szymańska IB, Hoffmann P, Utke I.
    Micromachines (Basel); 2021 May 20; 12(5):. PubMed ID: 34065297
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  • 37. FEBID 3D-Nanoprinting at Low Substrate Temperatures: Pushing the Speed While Keeping the Quality.
    Hinum-Wagner J, Kuhness D, Kothleitner G, Winkler R, Plank H.
    Nanomaterials (Basel); 2021 Jun 09; 11(6):. PubMed ID: 34207654
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  • 38. Site-Selective Chemical Vapor Deposition on Direct-Write 3D Nanoarchitectures.
    Porrati F, Barth S, Gazzadi GC, Frabboni S, Volkov OM, Makarov D, Huth M.
    ACS Nano; 2023 Mar 14; 17(5):4704-4715. PubMed ID: 36826847
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  • 39. Impact of Electron-Beam Heating during 3D Nanoprinting.
    Mutunga E, Winkler R, Sattelkow J, Rack PD, Plank H, Fowlkes JD.
    ACS Nano; 2019 May 28; 13(5):5198-5213. PubMed ID: 30986036
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  • 40. Vanadium and Manganese Carbonyls as Precursors in Electron-Induced and Thermal Deposition Processes.
    Jungwirth F, Knez D, Porrati F, Schuck AG, Huth M, Plank H, Barth S.
    Nanomaterials (Basel); 2022 Mar 28; 12(7):. PubMed ID: 35407228
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