偏最小二乘紫外分光光度法同时测定甲基苯甲醛三种同分异构体

将偏最小二乘法(PLS)用于紫外分光光度数据的解析,建立了同时测定甲基苯甲醛3种同分异构体的模型。在230～304 nm范围内,将测得的48个样品的吸光度值作为校正集,另18个样品的吸光度值作为预测集用于建模。所建立的邻、间、对甲基苯甲醛模型的平均回收率分别为101.2%、100.2%和98.9%;均方根误差(RMSE)分别为0.2667、0.3853和0.2118;预测浓度范围分别为4.6～16.2μg/mL、5.8～17.4μg/mL和6.5～20.6μg/mL。讨论了混合物中3种同分异构体浓度比例对测定结果的影响,并确定了最佳的浓度比例范围。对模拟样品进行加标回收率试验。并通过与顺、反丁烯二酸两种同分异构体测定结果的比较,得出了有意义的结论。     

过氧化氢-2,4-二氯苯酚-4-氨基安替比林体系催化光度法测定血红细胞中的铁

基于在十二烷基硫酸钠存在下的弱碱性介质中Fe(Ⅲ)对H_2O_2氧化2,4-二氯苯酚(2,4-DCP)与4-氨基安替比林(4-AAP)偶联显色反应的催化作用,建立了检出限为7.90μg/L.线性范围为0～1.25mg/L的新催化光度分析法.方法用于血红细胞中铁的测定,相对标准偏差与回收率分别为2.6%与98.8%～101%,结果满意.     

催化光度法测定痕量银--银-过硫酸钾-甲基紫-十二烷基苯磺酸钠体系

在HAc-NaAc(pH=4.5)介质中,以2,2′-联吡啶为活化剂,阴离子表面活性剂十二烷基苯磺酸钠(SDBS)为增溶剂,用Ag催化过硫酸钾氧化甲基紫,建立了催化动力学光度测定痕量银的新方法.方法的检出限为5.5×10-3mg/L;相对标准偏差为2.7%(n=9);线性范围为0.020～0.12 mg/L.本法可用于测定黑白相纸液中银和氯化银的溶度积.     

非水溶剂中微量溶解氧的测定

利用分子氧对联吡啶钌的荧光有淬灭作用的特点,建立了一种灵敏的测定非水体系中微量溶解氧的方法.以甲基三甲氧基硅烷(MTMS)和四乙氧基硅烷(TEOS)为共聚前驱体,以联吡啶钌为荧光指示剂制备了新的有机改性溶胶-凝胶氧敏感膜,并将该膜用于有机体系中溶解氧的测定,响应时间小于30 s.对1,3-丁二醇,丙二醇,丙三醇,PEG-400中溶解氧的测定线性范围分别为0～73.6 mg/L,0～116.4 mg/L,0～205.7 mg/L,0～165.0 mg/L;RSD(n=6)分别为3.5%.5.4%,2.8%和1.0%.该法可用于有机溶剂中溶解氧的测定.     

离子色谱法同时测定化妆品中的铵和6种烷基胺

建立同时测定化妆品中铵和6种烷基胺的离子色谱(IC)分析方法。优化了色谱条件和样品前处理方法,样品经100 mmol/L乙酸-20%(v/v)乙腈溶液浸提,固相萃取(SPE)柱去除阴离子、中和氢离子后进样测定。考察了提取溶液的pH、有机溶剂和共存离子对测定结果的影响。分析方法的线性范围为0.3～15 mg/L,检出限为2.1～7.9 mg/kg,定量限为7～26 mg/kg。采用建立的分析方法测定了清洗、柔肤、祛斑、防晒、烫发、染发和育发类化妆品的加标回收率的范围在80.2%～109.2%之间,相对标准偏差(RSD)的范围为0.5%～3.1%。方法选择性好,灵敏度高,抗干扰强,用于实际样品测定结果准确。     

离子色谱-抑制电导检测法同时测定草甘膦母液中的含磷副产物及无机阴离子

建立了一种抑制电导检测-离子色谱(IC)同时测定草甘膦生产工艺中母液里的草甘膦及其副产物、无机阴离子的方法。样品经过滤后直接进样,色谱条件: IonPac AS11-HC分离柱(250 mm×4 mm)和IonPac AG11-HC保护柱(50 mm×4 mm),在线淋洗液发生器KOH梯度淋洗,流速1.0 mL/min,采用抑制电导检测。草甘膦、甲基草甘膦、六甲基磷酰三胺(HMPA)、增甘膦、亚磷酸、磷酸、Cl~和SO2~4的线性范围分别为0.1～20 mg/L、0.1～20 mg/L、0.1～50 mg/L、0.25～50 mg/L、0.05～20 mg/L、0.2～50 mg/L、0.02～20 mg/L和0.05～50 mg/L,相关系数分别为0.9995、0.9993、0.9999、0.9998、0.9999、0.9985、0.9999和0.9980,加标回收率为93.7%～104.0%,相对标准偏差均小于2.5% (n=7),检出限(以信噪比(S/N)=3计)为0.002～0.025 mg/L。该方法用于草甘膦生产工艺中母液里草甘膦及其含磷副产物和无机阴离子的测定,结果令人满意。     

头孢噻肟钠与茜素的显色反应及其分析应用

在pH6.5～8.7的条件下,头孢噻肟钠(CEFS)与茜素(ALZ)反应生成具有正吸收峰和负吸收峰的玫瑰红色络合物,最大正吸收波长位于538nm,最大负吸收波长位于446nm,表观摩尔吸光系数(ε)分别为2.33×104L.mol-1.cm-1(正吸收)和1.78×104L.mol-1.cm-1(负吸收),线性范围为0.2～9.2mg/L(正吸收)和0.2～8.2mg/L(负吸收)。当用正负光吸收叠加时,灵敏度更高。头孢噻肟钠在一定浓度范围内遵从朗伯-比尔定律,由此建立了测定头孢噻肟钠的光度分析法,并探讨了适宜的反应条件、主要分析化学性质及络合比。该法用于市售头孢噻肟钠药物含量的测定,结果满意。     

离子交换柱后衍生流动注射分光光度在线连续测定水中NO2-和NO3-

建立了连续测定NO2-和NO3-的柱后在线衍生结合流动注射光度分析体系.阴离子交换柱(HPIC-AS3)分离水样中的NO2-和NO3-,洗脱液依次将NO2-和NO3-洗脱流经镀铜镉还原柱,NO3-在线还原为NO2-,与对氨基苯磺酸溶液和N-(1-萘基)-乙二胺溶液合并,在λmax=500 nm处对NO2-和NO3-产生的红色染料进行光度连续检测.NO2-和NO3-的线性范围分别为0.01～1.0mg/L和0.02～2.0 mg/L,检出限分别为0.004和0.008 ng/L.方法用于雨水、湖水和自来水中痕量NO2-和NO3-的同时连续测定.     

高效液相色谱-质谱法同时测定清热解毒口服液中的5种有效成分

建立了同时测定清热解毒口服液中的绿原酸、栀子苷、黄芩苷、连翘苷和靛玉红5种有效成分的高效液相色谱-电喷雾电离质谱（HPLC-ESI/MS）分析方法。采用Zorbax SB C18色谱柱,以含0.2%甲酸的0.4 mmol/L醋酸钠(A相)、乙腈(B相)为流动相进行梯度洗脱,在ESI正离子模式下,采用选择离子监测方法进行测定,用峰面积进行定量。结果表明,绿原酸、栀子苷、黄芩苷、连翘苷和靛玉红的线性范围分别为0.050～50 mg/L,0.020～20 mg/L,0.005～30 mg/L,0.010～15 mg/L和0.010～10 mg/L;检出限分别为0.010,0.005,0.001,0.002和0.003 mg/L。5种成分的加样回收率为97.0%～101.7%,相对标准偏差小于2.2%。该法快捷、准确、重复性好,可用于清热解毒口服液中的5种有效成分含量的同时测定。     

双波长动力学光度法测定邻苯二酚的研究

Fe(Ⅲ)能够催化H2O2氧化中性红和灿烂甲酚蓝混合体系并使其褪色,加入邻苯二酚以后,该催化氧化褪色反应的速度明显提高.分别测定540 nm和640 nm处加入邻苯二酚和没有加入邻苯二酚体系的吸光度变化,发现吸光度的变化之和(△A)与邻苯二酚的浓度之间存在线性关系.研究了反应体系的吸收光谱,优化了实验条件,建立了双波长动力学光度法测定邻苯二酚的新方法.该方法测定邻苯二酚的线性范围为0.16～1.44 mg/L,检出限为0.05 mg/L.方法用于废水样品中邻苯二酚的测定,结果满意.     

Evolving factor analysis-based method for correcting monitoring delay in different batch runs for use with PLS: On-line monitoring of a transesterification reaction by ATR-FTIR

In this work, the base-catalyzed transesterification of soybean oil with ethanol was monitored on-line using mid-infrared spectroscopy (MIRS) and the yield of fatty acid ethyl esters (biodiesel) was obtained by (1)H NMR spectroscopy. The MIRS monitoring carried out for 12min, was performed using a cylindrical internal reflectance cell of PbSe in the range of 3707-814cm(-1) with eight co-added scans. Two different data treatment strategies were used: in the first, the models were built using the raw data and in the other, evolving factor analysis (EFA) was used to overcome the sensor time delay due to the on-line analysis, producing significantly better results. In addition, models based on partial least squares (PLS) using three batches for calibration and another for validation were compared with models with just one batch for calibration and three for validation. The models were compared between each other using root mean square error of prediction (RMSEP) and root mean square prediction difference (RMSPD), obtaining relative errors under 3%.     

Genetic‐Algorithm‐Based Wavelength Selection in Multicomponent Spectrophotometric Determination by PLS: Application on Ascorbic Acid and Uric Acid Mixture

Genetic algorithm (GA) is a suitable method for selecting wavelengths for partial least squares (PLS) calibration of mixtures with almost identical spectra without loss of prediction capacity using the spectrophotometric method. In this study, the concentration model is based on absorption spectra in the range of 200‐320 nm for 25 different mixtures of ascorbic acid (AA) and uric acid (UA). The calibration curve was linear over the concentration range of 1‐15 and 2‐16 μg mL^?1 for ascorbic acid and uric acid, respectively. The root mean square deviation (RMSD) for ascorbic acid and uric acid with GA and without GA were 0.3071 and 0.3006, 0.3971 and 0.7063, respectively. The proposed method was successfully applied to the simultaneous determination of both analytes in human serum and urine samples.     

Determination of Parabens and their Degradation Product p-Hydroxy-Benzoic Acid in Pharmaceutical Dosage Forms by Hptlc Densitometry

Abstract

HPTLC densitometry has been developed for the determination of parabens and their degradation product p-hydroxybenzoic acid in pharmaceutical preparations. The method was used for simultaneous determination of parabens in combination:methylparaben - propylparaben, propylparaben - butylparaben and for the determination their stability in dosage forms (suspensions, ointment). The substances were separated on silica gel with fluorescence indicator in system n-pentane - glacial acetic acid (88:12, v/v). Absorbance measurements(detection of reflectance) of separated parabens was carried out “in situ” at 256 nm using single-level calibration (external standard). For the determination of p-hydroxybenzoic acid, a five-level calibration curve (external standard) was used in the concentration range of 20–100 ng/band. The results were evaluated by linear regression analysis. The relative standard deviation values (R.S.D.%) were in range 1.24–1.89 %.     

近红外光谱法同时测定通天口服液中天麻素和芍药苷的含量

本文应用近红外光谱结合偏最小二乘法建立了同时测定通天口服液中天麻素与芍药苷含量的方法。以高效液相色谱(HPLC)法测定通天口服液样品中天麻素和芍药苷的化学参考值,随机抽取60个样本作校正集,20个样本作预测集。用偏最小二乘法(PLS)将校正集样本的近红外光谱与相应样本的天麻素和芍药苷含量分别相关联建立模型。结果表明,天麻素和芍药苷校正模型的决定系数分别为96.28%、94.55%,模型的交叉验证均方差分别为0.0336、0.00908,预测集的决定系数分别为94.23%、92.86%,预测集均方差分别为0.0453、0.00839。同时还做了模型的精密度实验,该方法能用于大批量样品的快速分析。     

Spectrophotometric simultaneous determination of ceratine, creatinine, and uric acid in real samples by orthogonal signal correction–partial least squares regression

Abstract  This work describes a quantitative spectroscopic method for the analysis of ternary mixtures of ceratine (CER), creatinine (CRE), and uric acid (UA) using multivariate data models based upon ultraviolet spectroscopy. By multivariate calibration methods, such as partial least squares regression, it is possible to obtain a model adjusted to the concentration values of the mixtures used in the calibration range. In this study, the calibration model is based on absorption spectra in the 200–260 nm range for 36 different mixtures of CER, CRE, and UA. The unrelated information was removed by the orthogonal signal correction (OSC) method and the results were proved. Evaluation of the prediction errors for the prediction set reveals the OSC-treated data give substantially lower root mean square error of prediction (RMSEP) values than original data. The RMSEP for CER, CRE, and UA with OSC were 1.1686, 0.2195, and 0.3726, and without OSC were 1.9057, 0.3482, and 0.6164, respectively. This procedure allows the simultaneous determination of CER, CRE, and UA in synthetic and real samples. Graphical abstract        

近红外光谱结合膜富集技术测定饮料中微量邻苯二甲酸二异辛酯的含量

提出了一种基于在线膜富集的近红外漫反射光谱技术,对饮料中的微量塑化剂邻苯二甲酸二异辛酯(DEHP)进行快速检测。采用聚醚砜膜对饮料中的DEHP进行富集,将富集DEHP的膜直接进行近红外漫反射检测。参考DEHP的透射近红外光谱,对波数进行选择,以4 420～4 060、4 700～4 540、6 040～5 600cm-1作为建模的波数区间。通过比较原始光谱、多元散射校正、一阶求导、二阶求导及其组合,考察了光谱预处理方法对模型的影响,用去一交互验证法建立了偏最小二乘(PLS)模型,并用所建立的校正模型对校正集样品进行了预测。结果表明,在选定的波数区间,当用一阶求导对校正集光谱进行预处理时,所建立的模型对校正集的预测效果最佳,在隐变量数为7时,对校正集所有样品的校正均方根误差(RMSEC)为0.188 7mg/L。用此模型对预测集样品进行预测时,DEHP的质量浓度在0.5～5.0 mg/L范围内,预测均方根误差(RMSEP)为0.232 4 mg/L,平均相对预测误差为6.29%。     

紫外光谱法对维生素E油酸酯、维生素E与油酸的同时测定

建立了混合体系中维生素E、油酸和维生素E油酸酯同时测定的方法,用光纤光谱仪获取混合体系紫外-可见透射光谱.实验按均匀设计建立校正集和预测集,在255 ～315 nm波段采用偏最小二乘法建立了同时定量测定该3组分的校正模型,并用间隔区间偏最小二乘法(iPLS)通过优选建模区间改进油酸的预测模型.采用iPLS能够显著提高模型准确度,尤其对光谱弱响应的物质,最大相对误差从PLS直接建模的54.7%降至iPLS的8.98%,建立的模型可满足动力学研究的原位分析需要.     

Direct, reagent-free determination of free fatty acid content in olive oil and olives by Fourier transform Raman spectrometry

Fourier transform (FT) Raman spectrometry in combination with partial least squares (PLS) regression was used for direct, reagent-free determination of free fatty acid (FFA) content in olive oils and olives. Oils were directly investigated in a simple flow cell. Milled olives were measured in a dedicated sample cup, which was rotated eccentrically to the horizontal laser beam during spectrum acquisition in order to compensate sample heterogeneity. Both external and internal (leave-one-out) validation were used to assess the predictive ability of the PLS calibration models for FFA content (in terms of oleic acid) in oil and olives in the range 0.20-6.14 and 0.15-3.79%, respectively. The root mean square error of prediction (RMSEP) was 0.29% for oil and 0.28% for olives. The predicted FFA contents were used to classify oils and olives in different categories according to the European Union regulations. Ninety percent of the oil samples and 80% of the olives were correctly classified. These results demonstrate that the proposed procedures can be used for screening of good quality olives before processing, as well as, for the on-line control of the produced oil.     

Solid-phase spectrofluorimetric determination of acetylsalicylic acid and caffeine in pharmaceutical preparations using partial least-squares multivariate calibration

PLS-1, a variant of the partial least-squares algorithm was used for the solid-phase spectrofluorimetric determination of acetylsalicylic acid (ASA) and caffeine (CF) in pharmaceutical formulations. The method allows the simultaneous quantification of the analytes, as the closely overlapping spectral bands are efficiently solved. Sample preparation prior to analysis is not required. The calibration set consisted of 83 samples with 50-170 mg g⁻¹ ASA plus 5-20 mg g⁻¹ CF; another set of 25 samples was used for external validation. Agreement between predicted and experimental concentrations was fair (r = 0.987 and 0.974 for ASA and CF models). For both models, the prediction performance was evaluated in terms of the coefficient of variability (CV), relative predictive determination (RPD), and ratio error range (RER). The final PLS-1 models were used for the determination of ASA and CF in pharmaceutical formulations.     

高效液相色谱-串联质谱法同时测定水溶性迷迭香提取物中迷迭香酸、阿魏酸和咖啡酸的含量

本文建立了一种同时快速测定水溶性迷迭香提取物中迷迭香酸、阿魏酸和咖啡酸含量的高效液相色谱-串联质谱(HPLC/MS/MS)分析方法。以甲醇和0.1%乙酸铵溶液为HPLC的流动相;MS/MS使用多反应监测(MRM)扫描方式,在3 min内可完成迷迭香酸、阿魏酸和咖啡酸三种化合物的分离分析。上述三种分析物在5~500 ng/mL范围内线性良好(r>0.999);检出限均低于5.0 ng/mL。本法操作简便、分析速度快、灵敏度高,可用于水溶性迷迭香提取物中迷迭香酸、阿魏酸和咖啡酸含量的测定。