Vacuum-annealed undoped polycrystalline CVD diamond: a new electrode material

Vacuum-annealing imparts conductivity to initially insulating undoped polycrystalline chemical–vapor-deposited diamond, thus turning it to a possible electrode material. The diamond film annealed at 1775 K appeared to be practically not conducting. With further increase in the annealing temperature...

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Bibliographic Details
Published in:Electrochimica acta 2003-12, Vol.49 (1), p.41-49
Main Authors: Pleskov, Yu.V., Krotova, M.D., Ralchenko, V.G., Khomich, A.V., Khmelnitskiy, R.A.
Format: Article
Language:English
Subjects:
Annealing
Diamond films
Electrochemical impedance
Electrochemical kinetics
Microelectrode
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Summary:Vacuum-annealing imparts conductivity to initially insulating undoped polycrystalline chemical–vapor-deposited diamond, thus turning it to a possible electrode material. The diamond film annealed at 1775 K appeared to be practically not conducting. With further increase in the annealing temperature above 1825 K, the film effective resistivity decreased from initial value of 10 11 to 10 12 Ω cm down to less than 0.1 Ω cm; the differential capacitance increased from ∼10 −3 to ∼50 μF per 1 cm 2 of geometrical surface; the transfer coefficients for electrochemical reactions in the [Fe(CN) 6] 3−/4− redox solution increased from ∼0.2 to 0.5; and the degree of reversibility of the electrochemical reaction increased. The observed changes in the electrode properties are attributed to gradual change in the thickness and/or properties (first and foremost, conductivity) of the nondiamond carbon phase formed along the intercrystallite boundaries upon the annealing; the conducting phase is outcropping at the film surface as an array of microelectrodes (“active sites”).
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2003.05.005