Laser synthesis of ultrafine particles.

Abstract

Recent studies concerning laser synthesis of ultrafine particles are reviewed with respect to the applications of lasers in industry. Mainly a cw and a TEA CO₂ lasers are used because of their high power and their easy operation. The synthetic methods are classified into (1) gas-evaporation by laser heating and (2) laser-induced reaction in the gas phase: pyrolysis, infrared multiplephoton decomposition, dielectric breakdown, and infrared photosensitized decomposition. Of these two methods, the method (2) using a CO₂ laser has advantages in synthesizing ultrafine particles with high purity, small diameters, and a narrow distribution of diameters. The present review is focused on the synthesis of ultrafine γ-iron particles. Since γ-iron is stable at 911-1392°C, γ-iron has not been usually isolated at room temperature. However, γ-iron has been synthesized in a high yield by the SF₆-sensitized infrared photodecomposition of Fe (C0) ₅ with a TEA CO₂ laser. γ-Iron has an average diameter of 76Å, a narrow distributiuon of diameters, the face-centered-cubic structure, and paramagnetism even at 4.2K.