The photoelectrochemical oxidation of n-Si(111)-C10H20COOC2H5 (1) and n-Si(111)-C10H20C(2-thienyl)(2)OH (2) in CH3CN + 10(-1) M Bu4NPF6 lead to the formation of macropores resulting from the dissolution of underlying silicon. The cyclic voltammetry study indicates that this etching phenomenon is electrocatalyzed by the oxidation product of terminal di(2-thienyl)carbinol moieties present in 2. Further AFM analysis demonstrates that the etching of silicon derivatized with the electroactive monolayer is of an anisotropic nature because characteristic morphological features are produced. In contrast, randomly distributed macropores without specific geometrical shapes are photoelectrogenerated from 1. (C) 2004 Elsevier B.V. All rights reserved.