在原子吸收分光光度法中,由于铝易形成难离解的氧化物(ALO、Al_2O和Al_2O_3),因而不能使用一般空气-乙炔焰作为原子化手段。以间接法或加入氟化铵的方法,由于其灵敏度仍较低等原因而实用意义不大。因而通常使用氧化亚氮-乙炔焰,其灵敏度为0.8～1.1ppm)。用空气-乙炔焰和氧化亚氮-乙炔焰的原子吸收法研究络合物以确定配位基的影响和原子在火焰中的分 In atomic absorption spectrophotometry, the general air-acetylene flame can not be used as an atomization method because aluminum easily forms refractory oxides (ALO, Al 2 O and Al 2 O 3). Indirect method or by adding ammonium fluoride, because of its sensitivity is still low and other reasons of little practical significance. Nitrous oxide - acetylene flame is therefore commonly used with a sensitivity of 0.8 to 1.1 ppm). Complexes were studied by atomic absorption spectroscopy using air-acetylene flame and nitrous oxide-acetylene flame to determine the effect of the ligand and the fraction of atoms in the flame