摘要
本文根据卡尔曼滤波算法结合高灵敏显色反应提出了一种新的高灵敏度高选择性多组分痕量分析方法。对卡尔曼滤波处理过程,估计初值,新息序列,信息增量等作为分析结果评价,波长数目选择的依据等基础性理论问题进行了探讨。应用于十余种高灵敏显色反应体系,对多种金属离子混合物及实际样品进行同时或分别测定,可不经任何分离,操作简便,结果良好。
A new method with high sensitivity and good selectivity for trace multicomponent analysis was investigated based on highly-sensitive colour reaction or fluorescent chelating reaction combined with Kalman filtering treatment. Fifteen chelating reactions were employed for assay of metallic ions but give overlapped spectra and show mutual interference in their determination through obtaining the optimal estimation of their concentrations by a series of correction of the measurement of absorbance or fluorescent intensity using the recursive algorithm written in BASICA, FORTRAN and/or PASCAL languages. Also, the effect on the results from the initial values, X (O), P (O) and R_((k)), the tendency of the state-estimates, the reduction of the error covarianoe, the correlation of innovation sequence, and the information gain obtained from the stepwise filtering were studied and used for judging the reliability (accuracy) of the analysis, for indicating the stop-point of filtering and for selecting the measurement wavelength. The results can be improved through filtering the data modified with the moving windows smoothing technique. The proposed method has been applied to the determination of Co/Ni/Cu (/Zn/Cd), Zn/Mn, Al/Ga/Fe, rare earths, Zr/Hf, Nb/Ta, Mo/W (/Sn/Ge/Ti) in mixtures and samples with RSD10% and/or recoveries 90—110%.
出处
《化学学报》
SCIE
CAS
CSCD
北大核心
1990年第11期1101-1107,共7页
Acta Chimica Sinica
基金
国家教委自然科学基金
