1. (a) Bonzel H.P. Alkali-promoted gas adsorbtion and surface reactions on metals. J. Vacuum Sci. Technol. 1984, A2(2), 866-872; (b) Nevskaia, E. Castillejos-López, A. Guerrero-Ruiz and V. Muñoz, Effect of the surface chemistry of carbon materials on the adsorption of phenol-aniline mixtures from water. Carbon 2004, 42(3), 653-665.

2. Dry M.E., Shingles T., Boshoff L.J. and Oosthuizen G.J. Heats of chemisorption on promoted iron surfaces and the role of alkali in Fisher-Tropsch synthesis. J. Catal. 1969, 15. 190-199.

3. Dry M.E., Shingles T. and Boshoff L.J. Rate of the Fischor-Tropsch reaction over catalysis. J. Catal. 1972, 22, 99-104.

4. Kuppers J., Wandelt K. and Ertl G. Influence of local surface structure on the sp photoemission of adsorbed xenon. Phys. Rev. Lett. 1979, 43, 923-931.

5. Rotermund H.H. and Jacobi K. Physisorbtion on a low work function metal: arups from xenon on cesium. Surf. Sci. 1983, 126, 32-40.

6. Lamoen D. and Persson B.N.J. Adsorption of potassium and oxygen on graphite: A theoretical study. J. Chem. Phys. 1998, 108 (8), 3332-3341.

7. Nikulin V.K. and Potechina N.D. Effect of change valent state of atoms of rare earth elements at adsorption on refractory metals. Fizika Tverdogo Tela (Physics of Solid State), Russia, 1978, 20, 3354-3357.

8. Zandberg E.Ya. F., Tontegode A.Ya. and Yusufov F.K. Surface ionization of CsCl molecules on Ir(111)-C. Jurnal Texnicheskoy Fiziki (Journal of Technical Physics), Russia, 1972, 42, 171-174.

9. Rutkov E.V. and Tontegode A.Ya. A study of the carbon adlayer on iridium. Surf. Sci. 1985, 161, 373-389.

10. Zandberg E. Ya. and N.I. Ionov, Poverkhnostnaya Ionizatsia (Surface Ionization) (Nauka, Moscow, 1969).

11. Tontegode A.Ya. Carbon on transition metal surfaces. Prog. Surf. Sci. 1991, 38, 201430.

12. Kholin N.A., Rutkov E.V. and Tontegode A.Ya. The nature of the adsorption bond between graphite islands and iridium surface. Surf. Sci. 1984, 139, 155-172.

13. Fomenko, V.S., Emissionnye Svoistva Materialov (Emitting Properties of Materials), Handbook (Naukova Dumka, Kiev, 1981).

14. Nasrullayev N.M. Interaction between cesium chloride molecules and metal atoms at coadsorption on the graphite single layer on iridium. Turkish J. Phys. 2000, 4, 617-622.

15. Nasrullayev N.M. Adsorption of Pt or Ni on graphite monolayer of rhenium, Synth. React. Inorg. Metal. Org. Nano-Metal Chem. 2005, 35, 7.

16. Nasrullyev N.M. and Panahov M.M. Co-adsorption Cesium Chloride Molecules and K, Na, Li Atoms on 2DGF on Re., 24th European Conference on Surface Science (ECOSS 24) Paris, September 3-9, 2006.

17. Gall N.R., Mikhailov S.N., Rutkov E.V. and Tontegode A.Ya. Carbon interaction with the rhenium surface. Surf. Sci. 1987, 191, 185-202.

18. Holmlid L. Complex kinetics of desorption and diffusion. Field reversal study of K. Exited- State desorption from graphite layer surfaces. J. Chem. Phys. 1998, 102, 10636-10646.

19. Lander J.J. and Morrison J. Low-energy electron diffraction study of graphite. J. Appl. Phys. 1964, 35, 3593-3598.

20. Lander J.J. and Morrison J. Ordered Physisorbed layer on graphite. Surf. Sci. 1966, 4, 103-107.

21. Morrison J. and Lander J.J. Ordered physisorption of xenon of graphite. Surf. Sci. 1966, 5, 163-169.

22. Arthur J.R. and Cho A.Y. Adsorption and desorption kinetics of Cu and Au on (0001) graphite. Surf. Sci. 1973, 36, 641-660.

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