根据文献[1]报道,蚓哚啉螺苯并噻哺的最大吸收波长在750—800nm之间,这个波长区域正好与半导体激光器的波长(800nm)相匹配,在光信息存贮方面有潜在的应用前景.目前,有关这方面的研究工作只见国外的一些专利,而国内尚未见这方面的报道,我们根据化合物的光色性与基因之间的构效关系,拟定合成6—硝基吲哚啉螺苯并噻喃衍生物,其目的在于探索合成这类化合物的最佳反应条件,并为进一步合成系列化合物及深入研究工作提供可靠的分析数据和光色性能优良的样品。 According to the literature [1], the maximum absorption wavelength of spirochloxospirobenzothiazepine is between 750-800 nm. This wavelength region matches exactly the wavelength of the semiconductor laser (800 nm), and there is potential for optical information storage Application prospects.At present, some researches in this field only see some foreign patents, but not yet reported in this area, according to the compounds of light color and the relationship between the structure and activity of genes, to develop a synthesis of 6-nitroindole The purpose of the present invention is to explore the optimum reaction conditions for the synthesis of these compounds and to provide reliable analytical data and excellent samples with good light and color properties for further synthesis of compounds and in-depth research.