MICROSTRUCTURAL AND MORPHOLOGICAL-CHANGES INDUCED IN GLASSY-CARBON ELECTRODES BY LASER IRRADIATION

被引：58

作者：

PONTIKOS, NM ^{[1
]}

MCCREERY, RL ^{[1
]}

机构：

[1] OHIO STATE UNIV,DEPT CHEM,120 W 18TH AVE,COLUMBUS,OH 43210

来源：

JOURNAL OF ELECTROANALYTICAL CHEMISTRY | 1992年 / 324卷 / 1-2期

关键词：

D O I：

10.1016/0022-0728(92)80048-9

中图分类号：

O65 [分析化学];

学科分类号：

070302 ; 081704 ;

摘要：

Raman spectra, phenanthrenequinone adsorption, differential capacitance and scanning electron micrographs on fractured and polished glassy carbon (GC) surfaces were monitored before and after pulsed laser irradiation of varying power density. At power densities below 30 MW/cm2, the Raman spectra, GAMMA(PQ), C(dl)-degrees, and SEM appearance of polished surfaces changed slightly with laser activation. However, the Raman spectra of fractured GC indicated increased disorder during laser irradiation. After vigorous laser treatment, the Raman spectrum became similar to that of the polished surface, but GAMMA(PQ) and C(dl)-degrees on the fractured surface did not change greatly at power densities below 30 MW/cm2. At higher power densities, both polished and fractured surfaces showed significantly higher GAMMA(PQ) and C(dl)-degrees, and the SEMs showed evidence of local melting. After 70 MW/cm2 laser treatment, the fractured and polished surfaces were quite similar. The results support a mechanism based on thermomechanical shock below about 30 MW/cm2 and local melting above this threshold.

引用

页码：229 / 242

页数：14

共 33 条

[1]

Adams R. N., 1969, ELECTROCHEMISTRY SOL

[2] SURFACE-ENHANCED RAMAN-SPECTROSCOPY OF CARBON ELECTRODE SURFACES FOLLOWING SILVER ELECTRODEPOSITION [J].

ALSMEYER, YW ;

MCCREERY, RL .

ANALYTICAL CHEMISTRY, 1991, 63 (13) :1289-1295

[3] MECHANISM OF ELECTROCHEMICAL ACTIVATION OF CARBON ELECTRODES - ROLE OF GRAPHITE LATTICE-DEFECTS [J].

BOWLING, R ;

PACKARD, RT ;

MCCREERY, RL .

LANGMUIR, 1989, 5 (03) :683-688

[4] ACTIVATION OF HIGHLY ORDERED PYROLYTIC-GRAPHITE FOR HETEROGENEOUS ELECTRON-TRANSFER - RELATIONSHIP BETWEEN ELECTROCHEMICAL PERFORMANCE AND CARBON MICROSTRUCTURE [J].

BOWLING, RJ ;

PACKARD, RT ;

MCCREERY, RL .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1989, 111 (04) :1217-1223

[5] CYCLIC AND DIFFERENTIAL PULSE VOLTAMMETRIC BEHAVIOR OF REACTANTS CONFINED TO ELECTRODE SURFACE [J].

BROWN, AP ;

ANSON, FC .

ANALYTICAL CHEMISTRY, 1977, 49 (11) :1589-1595

[6] ELECTROCATALYSIS OF PROTON-COUPLED ELECTRON-TRANSFER REACTIONS AT GLASSY-CARBON ELECTRODES [J].

CABANISS, GE ;

DIAMANTIS, AA ;

MURPHY, WR ;

LINTON, RW ;

MEYER, TJ .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1985, 107 (07) :1845-1853

[7] CHARACTERIZATION OF ELECTROCHEMICALLY PRETREATED GLASSY-CARBON ELECTRODES [J].

ENGSTROM, RC ;

STRASSER, VA .

ANALYTICAL CHEMISTRY, 1984, 56 (02) :136-141

[8] ELECTROCHEMICAL PRETREATMENT OF GLASSY-CARBON ELECTRODES [J].

ENGSTROM, RC .

ANALYTICAL CHEMISTRY, 1982, 54 (13) :2310-2314

[9] INTRODUCTION OF FUNCTIONAL-GROUPS ONTO CARBON ELECTRODES VIA TREATMENT WITH RADIO-FREQUENCY PLASMAS [J].

EVANS, JF ;

KUWANA, T .

ANALYTICAL CHEMISTRY, 1979, 51 (03) :358-365

[10] RADIOFREQUENCY OXYGEN PLASMA TREATMENT OF PYROLYTIC-GRAPHITE ELECTRODE SURFACES [J].

EVANS, JF ;

KUWANA, T .

ANALYTICAL CHEMISTRY, 1977, 49 (11) :1632-1635

← 1 2 3 4 →