Abstract

Amorphous or polycrystalline films of three organic materials (solvent blue 35 and two porphyrins) have been recrystallized into single-crystal thin films (of micrometer thickness) by a zone-melting technique, in which an electrically heated wire generated a narrow molten zone (0.5−2 mm wide) on the organic layer sandwiched between two pieces of glass or indium−tin oxide-coated glass. When the molten zone was moved slowly (3−120 μm/min) across the layer from one end of the cell to the other, a single-crystal film was produced after a single pass. After this treatment, the steady-state short-circuit photocurrent was improved by several orders of magnitude.