Berlin 2012 – wissenschaftliches Programm

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DS: Fachverband Dünne Schichten

DS 37: Poster II: Focused electron beam induced processing for the fabrication of nanostructures (focused session, jointly with O); Nanoengineered thin films; Layer properties: electrical, optical, and mechanical properties; Thin film characterization: structure analysis and composition (XRD, TEM, XPS, SIMS, RBS,..); Application of thin films

DS 37.14: Poster

Donnerstag, 29. März 2012, 15:00–17:00, Poster E

Thermal transformations in Cs_xC₅₈ fullerides — •Seyithan Ulas¹, Daniel Löffler², Patrick Weis¹, Artur Böttcher¹, and Manfred Kappes¹ — ¹KIT, Institut für Physikalische Chemie, Karlsruhe, Germany — ²BASF, Intermediates Research, Ludwigshafen, Germany

Monodisperse cluster films consisting of C₅₈ fullerene cages have been fabricated by soft-landing of mass-selected C₅₈ cations created by electron-impact induced fragmentation/ionization of C₆₀ cages [1]. The doping of the C₅₈ films by alkali metals leads to the formation of fullerides, Cs_xC₅₈ [2]. The temperature resolved mass spectra taken during the sublimation of Cs_xC₅₈ phase reveal three well distinguishable components, C₅₆, C₅₈ and C₆₀. The new components, C₅₆ and C₅₈, indicate the transfer of a C₂ unit from a C₅₈ cage to an adjacent one, -[C₅₈]-[C₅₈]→C₅₆+C₆₀ to be a process which competes with the breakage of the intercage bonds constituted by non-IPR sites (e.g. 2AP-2AP). The Cs doping raises the C₅₈ → C₆₀ conversion ratio from 0.04 for pristine C₅₈ films up to  3.9 for a saturated Cs_xC₅₈ phase. Consequently, sublimation of the saturated Cs_xC₅₈ fullerides proceeds predominantly via C₆₀ emission. The Cs_xC₅₈ films survive the annealing procedure (up to 1100K) as a new conducting carbon phase constituted by chains of fused cages which exhibit interesting vibronic and mechanic properties.

[1] A. Böttcher, et al., PCCP 7, 2816 (2005).

[2] D. Löffler, et al. Phys. Rev. B 77,155405 (2008).