Hostname: page-component-78c5997874-m6dg7 Total loading time: 0 Render date: 2024-11-17T23:20:19.000Z Has data issue: false hasContentIssue false
  • English
  • Français

“In-Situ Raman Spectroscopy of Electronic Processes in Fullerene Thin Films

Published online by Cambridge University Press:  01 February 2011

S.B. Phelan ,
B.S. O'Connell ,
G. Farrell ,
G. Chambers  and
H.J. Byrne
S.B. Phelan
Affiliation:
Facility for Optical Characterization and Spectroscopy / School of Physics, Dublin Institute of Technology, Kevin Street, Dublin 8, Ireland.
B.S. O'Connell
Affiliation:
Facility for Optical Characterization and Spectroscopy / School of Physics, Dublin Institute of Technology, Kevin Street, Dublin 8, Ireland.
G. Farrell
Affiliation:
Facility for Optical Characterization and Spectroscopy / School of Physics, Dublin Institute of Technology, Kevin Street, Dublin 8, Ireland.
G. Chambers
Affiliation:
Facility for Optical Characterization and Spectroscopy / School of Physics, Dublin Institute of Technology, Kevin Street, Dublin 8, Ireland.
H.J. Byrne
Affiliation:
Facility for Optical Characterization and Spectroscopy / School of Physics, Dublin Institute of Technology, Kevin Street, Dublin 8, Ireland.
Get access

Abstract

The current voltage characteristics of C60 thin film sandwich structures fabricated by vacuum deposition on indium tin oxide (ITO) with an aluminium top electrode are presented and discussed. A strongly non-linear behavior and a sharp increase in the device conductivity was observed at relatively low voltages (∼2V), at both room and low temperatures (20K). At room temperature the system is seen to collapse, and in situ Raman measurements indicate a solid state reduction of the fullerene thin film to form a polymeric state. The high conductivity state was seen to be stable at elevated voltages and low temperatures. This state is seen to be reversible with the application of high voltages. At these high voltages the C60 film was seen to sporadically emit white light at randomly localized points analogous to the much documented Electroluminescence in single crystals.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 725: Symposium P – Organic and Polymeric Materials and Devices-Optical, Electrical, and Optoelectronic Properties , 2002 , P10.8
Copyright
Copyright © Materials Research Society 2002

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Kroto, H.W. Heath, J.R. O'Brien, S.C., Curl, R.F. and Smalley, R.E.. Nature. 318, 162 (1985)Google Scholar
2. Rosseinsky, M.J.. Physics and Chemistry of the Fullerenes, Prassides, K ed., 443, 245262, Kluwer Academic, Dordrecht. (1994)Google Scholar
3. Kuzmany, H. Matus, M. Pichler, T. and Winter, J.. Physics and Chemistry of the Fullerenes, Prassides, K. ed., 443, 287309, Kluwer Academic, Dordrecht. (1994)Google Scholar
4. Dresselhaus, G. Dresselhaus, M.S. and Eklund, P.C.. Phys. Rev. B, 45, 6923. (1992)Google Scholar
5. Kuzmany, H. Matus, M. Burger, B. and Winter, J.. Adv. Mater. 10, 731745. (1994)Google Scholar
6. Rao, A.M. Zhou, P. Wang, K.A. and Eklund, P.C.. Science. 259, 955. (1993)Google Scholar
7. Bethune, D. G, Meijer, Tang, W.C. Rosen, H.J. Golden, W.G. Seki, H. Brown, C.A. and Vries, M.S. de, Chem. Phys. Lett., 179, 181. (1991)Google Scholar
8. Dresselhaus, M.S. Dresselhaus, G. and Eklund, P.C.. Science of Fullerenes and Carbon Nanotubes. Academic Press, London. (1996)Google Scholar
9. Byrne, H.J. Maser, W.K. Kaiser, M. Rühle, W.W., Akselrod, L. Werner, A.T. Anders, J. Zhou, X.-Q., Mahler, G. Kuhn, T. Mittelbach, A. and Roth, S. Appl. Phys. A, 57, 303 (1993)Google Scholar
10. Werner, A.T. Anders, J., Byrne, H.J. Maser, W.K. Kaiser, M. Mittelbach, A. and Roth, S., Appl. Phys. A, 57, 157. (1993)Google Scholar
11. Schön, J.H., Kloc, Ch. and Batlogg, B.. Science, 293, 24322434.(2001)Google Scholar
12. Schön, J.H., Kloc, Ch. and Batlogg, B.. Nature, 408, 549552.(2000)Google Scholar
13. Smie, A. and Heinze, J.. Physics and Chemistry of Fullerenes and Derivatives, World Scientific Singapore. (1995)Google Scholar
14. Wågberg, T., Jacobsson, P. Sundqvist, B.. Phy. Rev. B. 60, 4535.(1999)Google Scholar
15. Akselrod, L. Byrne, H.J. Thomsen, C. and Roth, S.. Chem. Phys. Lett., 215, 131. (1993)Google Scholar
16. Chambers, G. and Byrne, H.J.. Chem. Phys. Lett., 302, 307. (1999)Google Scholar