多种多样激光器在市场上的问世,刺激了光化学工作的迅速发展。现代科技水平激光器的时间特性、波长的可调谐性、高功率以及可达到的光谱范围使人们能进行从前不可能做的光化学研究。此外,由于激光技术的进步,光化学研究的一些新领域已得到发展。红外激光光化学就是这样一个领域。近几年来,红外激光辐照多种分子已被用来分离同位素、增快化学反应的速率、实现激光引发的均相光解以 The advent of a wide variety of lasers in the market has stimulated the rapid development of photochemical work. Modern state-of-the-art lasers’ time characteristics, wavelength tunability, high power, and achievable spectral range allow one to perform photochemical studies that were previously impossible. In addition, due to advances in laser technology, some new areas of photochemical research have been developed. Infrared laser photochemistry is one such area. In recent years, infrared laser irradiation of a variety of molecules have been used to separate isotopes, increasing the rate of chemical reactions to achieve homogeneous laser-induced photolysis