Abstract
Biofouling can cause many undesirable effects in industrial and medical settings. In this study, a
new biofouling inhibiting Ag-Pd surface was designed to form an inhibiting effect by itself. This
design was based on silver combined with nobler palladium, both with catalytic properties. Owing
to the potential difference between silver and palladium while contacting with an electrolyte, the
surface can form numerous discrete anodic and cathodic areas, so that an inhibiting reaction can
occur. In this paper, a series of electrochemical and biological investigations were conducted to
study the properties and biofouling inhibiting mechanism of these surfaces. In this study, the
evidence is presented that the inhibiting effect can be caused by the electrochemical interactions
and/or electric field between Pd and Ag/AgCl combined with an organic environment.
new biofouling inhibiting Ag-Pd surface was designed to form an inhibiting effect by itself. This
design was based on silver combined with nobler palladium, both with catalytic properties. Owing
to the potential difference between silver and palladium while contacting with an electrolyte, the
surface can form numerous discrete anodic and cathodic areas, so that an inhibiting reaction can
occur. In this paper, a series of electrochemical and biological investigations were conducted to
study the properties and biofouling inhibiting mechanism of these surfaces. In this study, the
evidence is presented that the inhibiting effect can be caused by the electrochemical interactions
and/or electric field between Pd and Ag/AgCl combined with an organic environment.
| Original language | English |
|---|---|
| Journal | Corrosion Engineering, Science and Technology |
| Volume | 43 |
| Issue number | 2 |
| Pages (from-to) | 142-148 |
| Number of pages | 7 |
| ISSN | 1478-422X |
| Publication status | Published - 2008 |
| Externally published | Yes |