US EPA

7764747 

Journal Article 

Surface characterization of glassy carbon electrodes anodized in 1-alkanols by their wettability and capacitance 

Maeda, H; Itami, M; Yamauchi, Y; Ohmori, H 

1996 

Yes 

Chemical and Pharmaceutical Bulletin
ISSN: 0009-2363
EISSN: 1347-5223 

Pharmaceutical Society of Japan 

44 

12 

2294-2299 

English 

10.1248/cpb.44.2294 

WOS:A1996WA39400018 

The surface conditions of glassy carbon (GC) electrodes anodized in n-CnH2n+1OH (n=2, 4, 6, 8: electrodes 1-4), HO(CH2)nOH (n=2-5: electrodes 5-8), and HO(CH2CH2O)2CH2CH2OR (R=H, Me: electrodes 9 and 10) were explored by measuring the wettability and capacitance as well as the voltammetric response to Fe(CN)3-6; wetting properties were evaluated by the contact angle formed by a drop of water; the ratio between the values of capacitance obtained before and after the anodic modification was used instead of the capacitance itself. The data have revealed that LiClO4 is recommended rather than conc. H2SO4 as a supporting electrolyte to fix 1-alkanol molecules more effectively to GC electrode surfaces in the anodic modification. The surface conditions of electrodes 1-10 have reflected the identities of the modifier remarkably: electrodes 1-4 have surfaces with hydrophobicity and thickness correlated to the length of carbon chains of the modifiers; on the other hand, the surfaces of electrodes 5-10 are hydrophilic, which seemed to allow each of the modified electrodes, except for electrode 8, to have a double layer with a thickness similar to a bare GC electrode. The suppression in the electrode reaction of Fe(CN)3-6 was stronger at electrodes 6 and 8 than at electrodes 5 and 7, which can be explained by the invocation of an "odd-even" effect. 

surface characterization; modification; glassy carbon electrode; wettability; capacitance; cyclic voltammetry