分光光度法测定土壤中碘的方法改进

对碳酸钠-氧化锌熔矿,分光光度法测定土壤样品中碘含量的方法进行改进,在不经过超级恒温水浴的情况下,对熔样温度、试剂用量的选择、比色温度等实验条件进行优化。改进后的方法经过国家一级标准物质分析验证,准确度ΔlgC0.05,相对标准偏差(RSD)10%,结果准确可靠,完全满足地球化学调查样品中对碘的质量要求,更加适合批量生产。     

肝素非还原端饱和结构的紫外吸收研究及在肝素寡糖测序中的应用

为了进一步探讨非还原端饱和结构的肝素寡糖在UV 232 nm的吸收情况, 制备了4种饱和结构的肝素二糖, 并用离子对反相液相色谱/离子阱飞行时间质谱(RPIP-LC/MS-IT-TOF)光电二极管阵列检测器分析了它们在UV 232 nm的吸收情况. 分析结果表明, 饱和结构的肝素二糖在UV 232 nm的检出限为9 μg(S/N=10), UV 232 nm/UV 206 nm约为不饱和结构肝素二糖UV 232 nm的7%~40%. 结果还表明, 肝素二糖UV 232 nm的吸收强度受亚硫酸基团(SO₃^2?)影响较大. 另外, 通过比较不饱和结构的肝素/硫酸类肝素(Hep/HS)标样二糖发现, 含N-未取代葡萄糖胺(GlcNH₃⁺)基团的二糖在UV 232 nm的吸收值较低. 最后, 通过简单的UV检测方法, 结合 HNO₂(pH=4.0)裂解法和RPIP-LC/MS-IT-TOF分析, 简化了含GlcNH₃⁺肝素六糖的测序方法. 本研究为以后用 HNO₂(pH=1.5)裂解法对混合组分N-硫酸化的肝素寡糖结构序列分析提供了可能.     

分光光度法在制备负载型多糖吸附污水中铅的应用

本文用不同活性炭制备了负载型多糖（活性炭改良）,多糖的负载率用硫酸苯酚法测定,标准曲线回归方程为Y=0.005906X+0.1234（ r=0.9998）,RSD为0.7%,线性范围为5~50.0mg/L,耶壳活性炭多糖负载率最高为65.71%。用自制负载型多糖清除污水中的铅,以甲基百里香酚蓝为显色剂,用光度法测定铅吸附率,测定条件为,室温、波长为610nm、甲醇为增敏剂、pH为6、显色剂用量为1.5mg/L,反应时间50min,方法的标准曲线回归方程为Y=0.0682X+0.1825（r=0.9999）,线性范围为0～8.0mg/L。平均6次的检出限为0.2mg/L,加标回收率在96.8%～102.3%,RSD为0.39%～3.2%,同时作了共存离子的干扰。结果不同负载型多糖对铅离子的吸附不同,其中椰壳活性炭负载多糖对铅的吸附最大为28.61%,比相应活性炭对铅的吸附高了16.08%。将多糖负载在活性炭上,可明显提高对铅离子的吸附,所以该研究为清除实际污水乃至土壤中的铅提供依据。     

“Parallel factor analysis of multi-excitation ultraviolet resonance Raman spectra for protein secondary structure determination”

Protein secondary structural analysis is important for understanding the relationship between protein structure and function, or more importantly how changes in structure relate to loss of function. The structurally sensitive protein vibrational modes (amide I, II, III and S) in deep-ultraviolet resonance Raman (DUVRR) spectra resulting from the backbone C–O and N–H vibrations make DUVRR a potentially powerful tool for studying secondary structure changes. Experimental studies reveal that the position and intensity of the four amide modes in DUVRR spectra of proteins are largely correlated with the varying fractions of α-helix, β-sheet and disordered structural content of proteins. Employing multivariate calibration methods and DUVRR spectra of globular proteins with varying structural compositions, the secondary structure of a protein with unknown structure can be predicted. A disadvantage of multivariate calibration methods is the requirement of known concentration or spectral profiles. Second-order curve resolution methods, such as parallel factor analysis (PARAFAC), do not have such a requirement due to the “second-order advantage.” An exceptional feature of DUVRR spectroscopy is that DUVRR spectra are linearly dependent on both excitation wavelength and secondary structure composition. Thus, higher order data can be created by combining protein DUVRR spectra of several proteins collected at multiple excitation wavelengths to give multi-excitation ultraviolet resonance Raman data (ME-UVRR). PARAFAC has been used to analyze ME-UVRR data of nine proteins to resolve the pure spectral, excitation and compositional profiles. A three factor model with non-negativity constraints produced three unique factors that were correlated with the relative abundance of helical, β-sheet and poly-proline II dihedral angles. This is the first empirical evidence that the typically resolved “disordered” spectrum represents the better defined poly-proline II type structure.     

Reversed phase liquid chromatographic determination of organic acids using on-line complexation with copper(II) ion

We describe a simple and sensitive liquid chromatographic method for the analysis of organic acids using on-line complexation with copper(II) ion. Organic acids complexed with copper(II) ion were separated on a reversed-phase C18 column and detected by UV absorption at 240 nm. The copper(II) ion concentration in the mobile phase had a great influence on separation and sensitivity. A mobile phase consisting of 10 mM copper(II) sulfate in 5 mM sulfuric acid (pH 2.3) was used to separate nine organic acids (tartaric, malic, malonic, lactic, acetic, citric, maleic, succinic and fumaric acids). The detection limits of the examined organic acids calculated at S/N = 3 ranged from 0.6 to 100 μM. The detector signal was linear over three orders of magnitude of organic acid concentration. The method successfully measured organic acids in juice and vinegar samples.     

Determination of Acetylcysteine in Pharmaceutical Samples by Silicomolybdenum Blue Spectrophotometry

An accurate and fast spectrophotometric method for the determination of acetylcysteine by silicomolybdenum blue has been established. The various effect factors on the determination of acetylcysteine by silicomolybdenum blue spectrophotometry are investigated in detail. The results show that under the optimum reaction conditions, SiO₃^2‐ reacts with Mo₇O₂₄^6‐ to form silicon molybdenum heteropoly acid (H₄Si(Mo₃O₁₀)₄). Then H₄Si(Mo₃O₁₀)₄ is reduced by hydrosulfuryl (‐SH) in acetylcysteine to form silicomolybdenum blue (H₄Si(Mo₃O₁₀)₂(Mo₃O₉)₂). The absorbance of silicomolybdenum blue is measured at the maximal absorption wavelength of 735 nm, and the content of acetylcysteine can be calculated based on this absorbance. A good linear relationship is obtained between the absorbance of silicomolybdenum blue and the concentration of acetylcysteine in the range of 5.040∼25.20 μg⋅mL^‐1. The linear regression equation is A = 0.0272 + 21.484C (mg⋅mL^‐1), with a linear correlation coefficient of 0.9995. This proposed method has been successfully applied to the determination of acetylcysteine in pharmaceutical samples, and the results agree well with those obtained by pharmacopoeial method.     

自组装金纳米粒子涂层对环境水样中紫外线吸收剂的固相微萃取

以刻蚀不锈钢丝为基体,采用化学沉积法在表面沉积金纳米粒子(AuNPs),修饰一层1,8-辛二硫醇分子后,再自组装一层AuNPs,制备了高强度AuNPs涂层固相微萃取(SPME)纤维,并与HPLC联用,以常用紫外线吸收剂为例,评价了AuNPs-SPME纤维的萃取分离性能。当萃取时间为30 min、温度为55℃、搅拌速率为800 r/min,pH=7时,萃取效果最好。在优化的萃取条件下,所建立的Au NPs-SPME-HPLC法测定4种紫外吸收剂(2-羟基-4-甲氧基二苯甲酮、2-乙基己基-4-(N,N-二甲氨基)苯甲酸酯、2-乙基己基-4-甲氧基肉桂酸酯和2-乙基己基水杨酸)的线性范围为0.004~200μg/L,检出限为0.43~570 ng/L(S/N=3),相对标准偏差(RSD)在1.9%~4.2%(n=5)之间。河水、废水处理厂的废水以及雨水样品中紫外线吸收剂的加标回收率在77.9%~108%之间,RSD为3.1%~8.0%(n=5)。     

Ni在ZrO2(111)薄膜表面的生长、电子结构及热稳定性

The growth mode, electronic structure, and thermal stability of Ni nanoparticles on thin ZrO₂(111) film surfaces were investigated using X-ray photoelectron spectroscopy, ultraviolet photoelectron spectroscopy, and low-energy electron diffraction. Stoichiometric ZrO₂(111) thin films with thickness of 3 nm were epitaxially grown on a Pt(111) single-crystal surface. The results indicate that the growth of Ni vapor deposited on thin ZrO₂(111) films follows two-dimensional growth up to 0.5 ML (monolayer), followed by threedimensional growth (i.e., the Stranski-Krastanov growth mode). The Ni 2p_3/2 binding energy (BE) increases with decreasing Ni coverage. We used the Auger parameter method to differentiate the contributions to this BE shift from the initial-state and final-state effects. The main contribution to the Ni 2p core level BE shift is made by the final-state effect. However, at low Ni coverages, the initial-state effect also contributes. This suggests that at the initial stage of Ni growth on the ZrO₂(111) surface, Ni and ZrO₂ interact strongly, leading to charge transfer from Ni to the ZrO₂ substrate, with the appearance of partially positively charged Ni_δ+. Thermal stability studies of Ni/ZrO₂(111) model catalysts with two different coverages (0.05 and 0.5 ML) indicate further oxidation of Ni to Ni₂₊ and concurrent diffusion of Ni into the ZrO₂ substrate at elevated temperatures. These findings provide an atomic-level fundamental understanding of the interactions between Ni with ZrO₂, which is essential for identifying the structures of real ZrO₂-supported Ni catalysts.     

聚焦微波辅助提取-酸性染料分光光度法测定农吉利中总生物碱

采用聚焦微波辅助提取(FMAE)结合溴麝香草酚蓝分光光度法测定农吉利中总生物碱。粒径为0.180 mm的样品,以甲醇为溶剂,料液比为1比25,在微波功率中火条件下提取50min。在pH 7.2的磷酸二氢钾-氢氧化钠缓冲溶液中,提取得到的生物碱与溴麝香草酚蓝酸性染料形成缔合物,用三氯甲烷萃取后,在最大吸收波长417nm处测量其吸光度。总生物碱的质量浓度在0.25~250mg·L-1范围内呈线性,方法的检出限(3S/N)为1.5mg·L-1。应用该方法测定农吉利药材中总生物碱,加标回收率为105%,测定值的相对标准偏差(n=6)小于3.0%。