Influence of dislocations on electrical properties of large grained polycrystalline silicon cells. II. Experimental results

Abstract

The predictions of the model given in part I are tested by means of a set of diode arrays which allow us to measure the electron effective diffusion length (L_eff) and the short circuit photocurrent (J_sc) in large grained polycrystalline silicon cells. The experimental dependencies of L_eff and J_sc on the average of the dislocation density (N_dis) fit well with the computed curves, and then the mean value of the recombination strength of dislocations (S_d) may be evaluated. As predicted by the model, the reduction of the value of S_d by a passivation technique like hydrogenation, significantly increases the values of L_eff and J_sc. The good agreement between computed and experimental results indicate that dislocations are the most harmful defects.