Federica Galli
Onderzoekstechnicus
- Naam
- Dr. F. Galli
- Telefoon
- +31 71 527 5468
- galli@physics.leidenuniv.nl
- ORCID iD
- 0000-0002-1098-8150
Onderzoekstechnicus
- Wiskunde en Natuurwetenschappen
- Leiden Instituut Onderzoek Natuurkunde
- LION - Science Education Support Group
- Tirion S., Cheng Z., Pen C.G.A, Galli F., Hesselberth M. & Bhattahcaryya S. (2024), A technical note on a compact inert-gas suitcase for optical measurements of air-sensitive 2d materials, Zenodo : .
- Skolaut J., Tepper J.T., Galli F., Wulfhekel W. & Ruitenbeek J.M. van (2023), Spatial variations of conductivity of self-assembled monolayers of dodecanethiol on Au/mica and Au/Si substrates, Beilstein Journal of Nanotechnology 14: 1169–1177.
- Deng X., Galli F. & Koper M.T.M. (2020), In Situ AFM Imaging of Platinum Electrode Surface during Oxidation-Reduction Cycles in Alkaline Electrolyte, ACS Applied Energy Materials 3(1): 597-602.
- Tewari S., Bakermans J., Wagner C., Galli F. & Ruitenbeek J.M. van (2019), Intuitive human interface to a scanning tunnelling microscope: observation of parity oscillations for a single atomic chain, Beilstein Journal of Nanotechnology 10: 337-348.
- Benne N., Leboux R.J.T., Glandrup M., Duijn J. van, Lozano Vigario F., Neustrup M.A., Romeijn S., Galli F., Kuiper J., Jiskoot W. & Slütter B. (2019), Atomic force microscopy measurements of anionic liposomes reveal the effect of liposomal rigidity on antigen-specific regulatory T cell responses, Journal of Controlled Release 318: 246-255.
- Bellunato A., Vrbica S., Sabater Piqueres C., Vos E.W. de, Fermin R., Kanneworff K.N., Galli F., Ruitenbeek J.M. van & Schneider G.F. (2018), Dynamic tunneling junctions at the atomic intersection of two twisted graphene edges, Nano Letters 18(4): 2505-2510.
- Deng X., Galli F. & Koper M.T.M. (2018), In situ electrochemical AFM imaging of Pt electrode in sulfuric acid under potential cycling conditions, Journal of the American Chemical Society 140(41): 13285-13291.
- Smijs T. & Galli F. (2018), Forensic Potential of Atomic Force Microscopy with Special Focus on Age Determination of Bloodstains. In: Tanski T. (red.), Atomic-force Microscopy and Its Applications: IntechOpen. 27-48.
- Smijs T., Hosseinzoi A. & Galli F. (2017), Forensic Application of Atomic Force Microscopy for Age Determination of Bloodstains, Journal of Forensic Investigation 5(1): 6.
- Hosseinzoi A., Galli F., Incrocci L. & Smijs T. (2016), Mechanical Properties of Healthy and ex vivo Onychomycosis Nails and the Influence of a Porphyrin-propylene Glycol Antifungal Formulation, British Journal of Applied Science & Technology 14(1): 1-14.
- Smijs T., Galli F. & Asten A. van (2016), Forensic potential of atomic force microscopy, Forensic Chemistry 2: 93–104.
- Gabal M., Arauzo A., Camón A., Castrillo M., Guerrero E., Lozano M.P., Pina M.P., Sesé J., Spagna S., Diederichs J., Rayner G., Sloan J., Galli F., Geest W.J. van der, Haberstroh C., Dittmar N., Oca A., Grau F., Fernandes A. & Rillo C. (2016), Hydrogen-Free Liquid-Helium Recovery Plants: The Solution for Low-Temperature Flow Impedance Blocking, Physical Review Applied 6: 024017.
- Tewari S., Bakermans J., Wagner C., Galli F. & Ruitenbeek J.M. van (2015), Testing mono-atomic gold chains using 3D motion controlled Scanning Tunneling Microscope, Nevac blad 53: .
- Ekkers D., Claessen D., Galli F. & Stamhuis E.T. (2014), Surface modification using interfacial assembly of the Streptomyces chaplin proteins, Applied Microbiology and Biotechnology 98(10): 4491-4501.
- Kelly S., Galli F., Aarts J., Bose S., Sharma M. & Leighton C. (2014), Direct real space observation of magneto-electronic inhomogeneity in ultra-thin film La0.5Sr0.5CoO3−δ on SrTiO3(001), Applied Physics Letters 105: 112909.
- Callebaut N., Craps B., Galli F., Thompson D.C., Vanhoof J., Zaanen J. & Zhang H.B. (2014), Holographic quenches and fermionic spectral functions, JOURNAL OF HIGH ENERGY PHYSICS 2014: 172.
- Haan A.M.J. den, Wijts G.H.C.J., Galli F., Usenko O., Baarle D.W. van, Zalm D.J. van der & Oosterkamp T.H. (2014), Atomic resolution scanning tunneling microscopy in a cryogen free dilution refrigerator at 15 mK, Review of Scientific Instruments 85: 035112.
- Tartaglini E., Verhagen T.G.A., Galli F., Trouwborst M.L., Muller R., Shiota T., Aarts J. & Ruitenbeek J.M. van (2013), New directions in Point contact Spectroscopy based on scanning tunneling microscopy techniques, Low Temperature Physics 39: 189.
- Liu Z., Galli F., Waterreus W.J., Meulenbroek E.M., Koning R.I., Lamers G.E.M., Olsthoorn R.C.L., Pannu N.S., Oosterkamp T.H., Koster A.J., Dame R.T. & Abrahams J.P. (2012), Single-walled carbon nanotubes as scaffolds to concentrate DNA for the study of DNA-protein interactions, ChemPhysChem 13(6): 1569-1575.
- Liu Z., Jiang L., Galli F., Nederlof I., Olsthoorn R.C.L., Lamers G.E.M., Oosterkamp T.H. & Abrahams J.P. (2010), A graphene oxide center dot streptavidin complex for biorecognition - towards affinity purification, Advanced Functional Materials 20(17): 2857-2865.
- Liu Z., Galli F., Janssen K.G.H., Jiang L., Linden H.J. van der, Geus D.C. de, Voskamp P., Kuil M.E., Olsthoorn R.C.L., Oosterkamp T.H., Hankemeier T. & Abrahams J.P. (2010), Stable single-walled carbon nanotube-streptavidin complex for biorecognition, The Journal of Physical Chemistry Part C 114(10): 4345-4352.
- Morenzoni E., Luetkens H., Prokscha T., Suter A., Vongtragool S., Galli F., Hesselberth M.B.S., Garifianov N. & Khasanov R. (2008), Depth-dependent spin dynamics of canonical spin-glass films: a low-energy muon-spin-rotation study, PRL 100(147205): .
- Smaalen S. van, Shaz M., Palatinus L., Daniels P., Galli F., Nieuwenhuys G.J. & Mydosh J.A. (2004), Multiple charge-density waves in R5Ir4Si10 (R = Ho, Er, Tm, and Lu), PHYSICAL REVIEW B 69(014103): 1-11.
- Smaalen S. van, Daniels P., Galli F., Feyerherm R., Dudziki E., Nieuwenhuys G.J. & Mydosh J.A. (2003), Charge density waves in Er5Ir4Si10 compounds, Journal de Physique IV 12(9): 347-352.
- Jung M.H., Kim H.C., Galli F. & Mydosh J.A. (2003), Magnetic field and pressure effects on charge density wave, superconducting, and magnetic states in Lu5Ir4Si10, Physical Review B: Condensed Matter 68(132102): 1-4.
- Galli F., Feyerherm R., Hendrikx R.W.A., Dudzik E., Nieuwenhuys G.J., Ramakrishnan S., Brown S.D., Smaalen S. van & Mydosh J.A. (2002), Coexistence of charge density wave and antiferromagnetism in Er5Ir4Si10, Journal of Physics: Condensed Matter 14: 5067-5075.
- Galli F. (11 december 2002), Coexistence of charge density waves and magnetism in intermetallic compounds (Dissertatie, Leiden University). Promotor(en): Mydosh J.A. & Nieuwenhuys G.J.
- Galli F., Nieuwenhuys G.J., MacLaughlin D.E., Heffner R.H., Amato A., Bernal O.O. & Mydosh J.A. (2002), μSR studies on the charge density waves in Re5Ir4Si10, Physica B: Condensed Matter 319: 282-285.
- Smaalen S. van, Daniels P., Galli F., Feyerherm R., Dudzik E., Nieuwenhuys G.J. & Mydosh J.A. (2002), Charge-density waves in Er5Ir4Si10 type compounds, Journal Physique de France IV 12: 347-350.
- Betts J.B., Migliori A., Boebinger G.S., Ledbetter H., Galli F. & Mydosh J.A. (2002), Complete elastic tensor across the charge-density wave transition in monocrystal Lu5Ir4Si10, Physical Review B 66(6): 060106.
- Galli F., Ramakrishnan S., Taniguchi T., Nieuwenhuys G.J., Mydosh J.A., Geupel S., Ludecke J. & Smaalen S. van (2000), Charge density wave transitions in a local moment magnet: Er_5Ir_4Si_10, Physical Review Letters 85(1): 158-161.
- Galli F., Menovsky A.A., Nieuwenhuys G.J., Mydosh J.A., Ramakrishnan S. & Taniguchi T. (2000), Resistivity anomalies and local moment magnetism in Er_5Ir_4Su_{10} single crystal, Physica B: Condensed Matter 281&282: 171-172.
- Galli F., Feyerherm R., Hendrikx R.W.A., Ramakrishnan S., Nieuwenhuys G.J. & Mydosh J.A. (2000), Magnetic structure of the Er^{3+} moments in the charge-density-wave compound Er_5Ir_4Si_{10}, PHYSICAL REVIEW B 62(21): 13840-13843.
- Galli F., Feyerherm R., Prokes K. & Nieuwenhuys G.J. (2000), Magnetic structure of U_2Rh_3Si_5 in external fields up to 14.5 T, Physica B: Condensed Matter 276-278: 632-633.