Strumentazione per i beni culturali

La strumentazione disponibile presso il Dipartimento di Scienze consente studi all’avanguardia nel campo dello studio, conservazione e salvaguardia del patrimonio artistico culturale. E’ possibile accedere alla strumentazione sia su base di collaborazione scientifica che a richiesta con specifici contratti di servizio.Link identifier #identifier__180248-1image 110664

Strumentazione

  • Microspettrometro Raman InVia Qontor (Renishaw) dotato di due sorgenti laser, una a 532nm e l’altra a 785 nm
  • Microspettrometro Raman Labram (HORIBA JOBIN-YVON) dotato di una sorgente a 632nm
  • Spettrometro Raman portatile per misure in-situ
  • Colorimetro
  • TIME OF FLIGHT SECONDARY ION MASS SPECTROMETRY (Static and Dynamic)  TOF.SIMS5 – IONTOF
  • NICOLET™ IS50 FTIR SPECTROMETER, customized with aluminum optical coatings , fully-automated multi-spectral range system (15 – 27,000cm-¹). Equipped with THERMO FISHER iS50 ATR built-in multi-range module with diamond sampling station.
  • NICOLET™ CONTINUUM™ INFRARED MICROSCOPE + SLIDE-ON TIP ATR, customized with aluminum optical coatings
  • FLS1000 PHOTOLUMINESCENCE EDINBURGH INSTRUMENTS SPECTROMETER with Xenon lamp+cooled extended red PMT+Excitation/emission monochromator+3D High Resolution STYLUS PROFILER  KLA-TENCOR P7
  • Optical Microscopy ZEISS
  • Stereo microscope LEICA MICROSYSTEMS
  • Microscopio AM7915MZT Dino Lite 10X – 220X
  • Spin coater MIDAS INSTRUMENT
  • Orion™ Versa Star Pro™ pH/ISE/Conductivity/Dissolved Oxygen Multiparameter Benchtop Meter THERMO FISHER

Highlights

  • M. Iorio, A. Sodo, V. Graziani, P. Branchini, A. Casanova Municchia, M. A. Ricci, O. Salvadori, E. Fiorind and L. Tortora, Mapping at the nanometer scale the effects of sea-salt derived chlorine on cinnabar and lead white by using delayed image extraction in ToF-SIMS Analyst, 2021, DOI: Link identifier #identifier__197685-2https://doi.org/10.1039/D0AN02350G
  • L. Ruggiero, M.R. Fidanza, M. Iorio, L. Tortora, G. Caneva, M. A. Ricci, A. Sodo Synthesis and characterization of an innovative self-cleaning multifunctional coating with antifouling properties for preserving architectural stone surface Frontiers in materials, section Colloidal Materials and Interfaces, Front. Mater., 2020, DOI: Link identifier #identifier__175822-3https://doi.org/10.3389/fmats.2020.00185

Membri

 

Link identifier #identifier__103482-6Link identifier #identifier__198719-7Link identifier #identifier__137231-8
Carlo Meneghini 08 Aprile 2021