智能石墨消解–ICP–MS法测定空气PM2.5中的Pb和Cd

建立电感耦合等离子体质谱(ICP–MS)测定空气PM2.5中的Pb和Cd元素的分析方法。采用连续β射线–DHS PM2.5大气颗粒物浓度监测仪采集空气中的PM2.5,以智能石墨消解PM2.5滤膜样品,ICP–MS测定其中的Pb和Cd元素含量。在优化的仪器条件下,元素Pb和Cd标准曲线的线性相关系数均为0.999 9,检出限分别为0.018,0.52ng/m3,满足HJ 657–2013的要求。Pb和Cd的加标回收率分别为95.8%~101.4%,99.3%~104.9%,测定结果的相对标准偏差分别为4.20%和2.38%(n=6)。对滤膜标准样品进行了测定,测定结果与标准值一致。该方法测定结果准确、可靠,可用于测定空气PM2.5中的Pb和Cd。     

电感耦合等离子体质谱法测定PM2.5中的重金属元素

采集环境空气细颗粒物(PM2.5)样品,建立了电感耦合等离子体质谱法(ICP-MS)同时测定PM2.5中10种重金属元素的方法。样品经5%HNO_3超声浸提,过滤后,用ICP-MS测定。结果表明:10种重金属元素的检出限在0.030μg/L~0.13μg/L之间;线性关系良好,精密度为0.82%~4.3%,回收率为80.1%~113.0%。该方法快速、准确,可用于PM2.5中重金属元素的测定。     

电感耦合等离子体原子发射光谱法测定植物中钾、钠、钙和镁

采用硝酸–高氯酸湿法消解或硝酸–双氧水微波消解植物样品,以电感耦合等离子体原子发射光谱法同时测定样品溶液中钾、钠、钙和镁含量。用该法测定灌木枝叶和茶叶标准样品,测定值均在标准值范围内,测定结果的相对标准偏差为0.45%~4.05%(n=8)。钾、钠、钙、镁的加标回收率分别为94.4%~107.6%,92.6%~107.9%,93.7%~105.4%,92.9%~107.2%。该方法操作简便,测量精密度和准确度完全满足植物中钾、钠、钙和镁含量的测定要求。     

ICP–AES法同时检测生蚝中铅、铜、镉、铬、铁含量时3种样品前处理方法比较

采用干法、湿法和微波消解法处理珠海生蚝样品,用电感耦合等离子体发射光谱仪在谱线Pb 220.3 nm,Cu 324.7 nm,Cd 228.8 nm,Cr 283.5 nm,Fe 259.9 nm下测定样品中铅、铜、镉、铬、铁5种重金属元素的含量。结果表明,珠海市4个养殖基地的生蚝重金属含量均在国标限量范围内。铅、铜、镉、铬、铁各元素线性相关系数分别为0.999 8,0.999 4,0.999 9,0.999 2,0.997 8,检出限分别为0.020,0.014,0.001,0.036,0.120 mg/kg。干法、湿法、微波消解法的加标回收率分别为72.8%~99.3%,88.0%~102.0%,89.0%~103.0%。微波消解处理样品,ICP–AES法同时测定4种样品中5种重金属的含量,其测定结果的相对标准偏差均小于17%。微波消解–ICP–AES适合生蚝中铅、铜、镉、铬、铁含量的快速测定。     

全自动消解-电感耦合等离子体质谱(ICP-MS)法测定海洋沉积物中重金属

目前海洋沉积物前处理主要通过电热板消解,但该方法存在消解不完全、前处理时间长、重复性较差以及手工消解操作繁琐等问题。为提高海洋沉积物重金属消解效率,通过考察硝酸、盐酸、氢氟酸和高氯酸组合酸体系比例和最高消解温度对海洋沉积物预处理的影响,确定了最优的消解条件,建立了全自动消解-电感耦合等离子体质谱仪测定海洋沉积物中重金属的方法。结果显示硝酸占比越高各元素消解效果越好,盐酸用量不宜过多,逆王水消解比例最好。最优预处理条件为9 mL硝酸、3 mL盐酸、4 mL氢氟酸和2 mL高氯酸于160℃高温消解。该预处理条件下各元素相关性系数均大于0.999,经海洋沉积物标准样品（GBW07314）和实际样品应用,与国标法（GB/T 20260-2006）相比优化条件下各元素精密度和正确度均显著提高、检出限更低。各元素的相对标准偏差分别为0.9%~3.3%、0.5%~3.4%,回收率均在84.2%~102%。该方法自动化程度高、操作简便,可实现大批量样品预处理,适用于海洋沉积物中重金属元素的测定。     

不同前处理方法测定银锡焊料中3种重金属元素

选用银含量为3%、30%和70%的银锡焊料样品,分别经过三种不同前处理方法,采用硝酸、盐酸消解,应用电感耦合等离子体发射光谱法(ICP-OES)同时测定锡铅合金中镉、铅、汞3种重金属元素含量。实验研究了不同前处理方法对银锡合金中重金属测定的影响。实验表明消解实验中的共沉淀现象会对3种重金属元素的测定产生不利的影响,回收率不能满足要求;采用硝酸消解,过滤残渣经王水消解的方法,镉、铅、汞的7次测定重复性相对标准偏差在2.7%~5.5%、加标回收率在85.6%~103%,能够满足RoHS测试要求。     

微波消解ICP-MS法测定锂离子电池石墨负极材料中9种痕量元素

建立微波消解–ICP–MS法测定锂离子电池石墨负极材料中Al,Cr,Cu,Fe,K,Na,Ni,Pb,Zn 9种痕量元素含量的方法。采用硝酸–盐酸体系微波消解样品,稀释后用ICP–MS法测定样品消解溶液中9种痕量元素的含量。在优化仪器工作参数后,采用同位素和He模式克服质谱干扰。9种元素的质量浓度与质谱强度具有良好的线性关系,线性相关系数为0.999 1~0.999 8,检出限为0.132~3.700 mg/kg。加标回收率为98.4%~101.0%,测定结果的相对标准偏差为0.3%~3.6%(n=6)。该方法测定结果准确可靠,可用于锂离子电池石墨负极材料中痕量元素的测定。     

电感耦合等离子体质谱(ICP-MS)法同时测定荞麦秸秆中的8种重金属元素

基于硝酸-盐酸-氢氟酸消解体系,建立了马弗炉-微波消解-电感耦合离子体质谱(ICP-MS)法同时测定荞麦秸秆中的Cr、Cu、Ag、Mn、Fe、As、Ni、Pb等重金属含量测定方法。在微波消解的过程中,分别考察5种不同组合的混合酸体系及两种消解方法对荞麦秸秆中8种重金属测试结果的影响。实验结果表明,浓硝酸-浓盐酸-氢氟酸(6∶2∶2)混酸体系和马弗炉-微波消解样品前处理优于其他方法。在优化条件下,8种重金属加标回收率为91.2%~102%,相对标准偏差(RSD,n=5)为0.22%~4.7%,检出限为0.18~9.41μg/L。方法操作简便、快速、准确,结果可靠,能同时测定荞麦秸秆中8种重金属元素。     

微波消解–原子荧光法同时测定PM2.5中砷、汞含量

采用微波消解–原子荧光法测定PM2.5中砷、汞含量。实验结果表明,当还原剂硼氢化钾的质量分数为2%、溶液介质酸度为4%(体积分数)盐酸时,同时测定砷、汞可获得最佳的荧光值。砷、汞测定的检出限分别为0.027,0.006μg/L,空白滤膜的加标回收率分别为95.3%~101.7%,96.0%~106.0%,样品的加标回收率分别为95.0%~103.5%,93.3%~110.0%。该法检出限低,准确度高,适用于环境空气PM2.5中砷、汞含量的测定。     

微波消解–ICP–OES法测定陶土中铅和镉含量

建立微波消解–ICP–OES法测定陶土中铅和镉含量的方法。采用氢氟酸–硝酸作为消解液,微波消解法处理样品,消解液定容后直接进入耐氢氟酸的进样系统,用ICP–OES法测定陶土中重金属铅和镉的含量。结果表明,Pb和Cd检出限分别为0.027μg/m L和0.011μg/m L,回收率分别为90.5%~98.8%和95.0%~98.4%,测定结果相对标准偏差分别为1.38%和2.17%(n=7)。该方法具有快速、准确、灵敏度高等优点,适用于陶土中铅和镉含量的检测。     

电感耦合等离子体质谱测试硫化物中的微量元素

采用多种酸组合消解方法消解硫化物样品,最终选取A:HNO3密闭消解法;B:HCI+HF与HNO3两步消解法对硫化物标准物质GBW07267(黄铁矿)、GBW07268(黄铜矿),GBW07270(闪锌矿)及硫化物标准物质WMS-1a(块状硫化物)样品进行消解,采用ICP-MS测试了39种微量元素.结果表明,HNO3密闭...     

气相色谱-质谱法测定大气颗粒物中的有机胺类物质

建立了大气颗粒物中有机胺类物质的气相色谱-质谱(GC-MS)分析方法.样品用超纯水超声萃取,然后在碱性条件下,用苯磺酰氯(Benzenesulfonyl chloride,BSC)衍生化,衍生物用二氯甲烷萃取,最后用DB-5MS色谱柱分离测定,实现了13种有机胺(包括7种脂肪胺、2种杂环胺和4种芳香胺)的同时测定.本方法的仪器检出限(S/N=3)和定量限(S/N=10)分别为0.00008～0.017 μg/mL和0.00026～0.0565 μg/mL; 标准曲线线性相关系数为0.9903～0.9996,相关性良好;相对标准偏差(RSD)均小于30％, 除低浓度加标水平的甲胺和苯甲胺,其余样品基质加标平均回收率为54.4％～159.7％,大部分胺具有较高的精密度与准确度.将本方法应用于广州城区PM2.5样品的检测, 共检出有机胺9种,其中甲胺、二甲胺和二丁胺约占9种有机胺总和的90％,是PM2.5中主要胺类物质,而丙胺浓度最低,浓度小于1.0 ng/m3.     

微波消解/ICP-MS同时测定粮食、蔬菜中的11种重金属元素

建立了微波消解/电感耦合等离子体质谱法同时测定粮食和蔬菜中11种重金属元素(Cu、Mn、Cr、Pb、Cd、Ni、Sb、Hg、Co、Ag、As)的方法,优化了微波消解条件和仪器测定条件,采用HNO_3-HF-H_2O_2和HNO_3-H_2O_2两种混酸体系,将样品进行完全消解。结果显示,11种金属元素的线性系数不小于0.999 5,方法的检出限为0.001~10.00μg/L,测定的相对标准偏差(RSD,n=5)不大于5.0%。该方法具有快速、简便、灵敏度高、稳定性好、准确度高等优点。     

Determination of thirteen common elements in food samples by inductively coupled plasma atomic emission spectrometry: comparison of five digestion methods

Five sample digestion procedures were evaluated for the determination of Al, B, Ca, Cu, Fe, K, Mg, Mn, Na, P, S, Sr, and Zn in food samples by inductively coupled plasma atomic emission spectrometry. The 5 procedures include dry ashing at 500 degrees C, wet digestion with HNO3-HClO4, microwave digestion with HNO3, microwave digestion with HNO3-H2O2, and microwave digestion with HNO3-H2O2-HF. For microwave digestion with HNO3-H2O2-HF, silicon (IV) oxide was used to eliminate the excess HF, making it possible to determine total Al, B, and other common elements accurately and simultaneously. Seven National Institute of Standards and Technology standard reference materials (SRMs) were analyzed to compare the recovery of 13 elements with above digestion procedures. The results demonstrated that the microwave digestion procedure with HNO3-H2O2-HF yielded the best recoveries for all 13 elements in the selected SRMs. The determined concentrations of most elements were close for all 3 microwave digestion procedures with the exception of Al in oyster tissue, bovine liver, and spinach. Notably, the wet digestion with HNO3-HClO4 is the simplest and the most effective procedure for the selected elements except Al and B. Although there are several concerns with the dry ashing procedure, it might be a preferable procedure for those analyses where only nonvolatile elements are to be determined and the concentrations of the elements are low.     

ICP–AES法测定药用植物中22种元素

建立微波消解–电感耦合等离子发射光谱(ICP–AES)测定贵州梵净山特色药用植物中Ni,Cd,As,Co等22种元素含量的方法。以硝酸–过氧化氢(3∶1)为消解体系,样品经微波消解后,用ICP–AES法对厚朴皮与厚朴根、野生艾纳香和人工种植艾纳香中22种元素含量及其差异进行分析。仪器工作条件:RF功率为1.25 k W,等离子体气流量为15.1 L/min,辅助气流量为1.0 L/min,雾化器气体流量为0.6 L/min。各元素在检测范围内有良好的线性,线性相关系数为0.986 7~0.999 6,检出限在0.001 2~0.012 3μg/g之间;加标回收率在95.55%~102.4%之间,测定结果的相对标准偏差为0.8%~3.6%(n=5)。该方法快速、准确、可靠,可用于药用植物样品中的微量元素分析。     

Screening of urban aerosol particulate composites for selected metal distribution and their dependence on meteorological parameters

Local atmospheric aerosol particulate samples, collected as composites on daily 6-12 hour basis, at Quaid-i-Azam University campus, Islamabad, Pakistan, using high volume sampling technique, were analysed for Pb, Na, K, Fe, Mn, Cd, Cr, Ni, Zn and Co by FAAS method. The monitoring period ran from October, 2001 through March, 2002, with a total of 105 samples collected on cellulose filters, treated in part with the HNO3-based wet digestion method for metal quantification, and for particle size distribution separately. The metal content of the aerosols was examined in relation to dependence on meteorological parameters, such as temperature, relative humidity, wind speed, sun shine and pan evaporation. Statistical correlation analysis was conducted for multiple metal pairs in aerosols, and the data were examined in relation to meteorological parameters and relevant aerosol particle size fractions. The study revealed no viable strong correlation between the meteorological parameters and metal levels; in general, however, a significant positive correlation was found for temperature. A strong positive correlation was observed for PM<25 and PM2.5-10. For coarse particles (PM10-100 and PM>100), however, a negative correlation was observed. The levels of Na, K, Fe and Zn were found in the range of 1-5 microg/m3 while those for the rest of the metals in the sub microg/m3 range. Principal component analysis and cluster analysis were performed on dataset for source identification and appointment. Largest contribution (33%) was shown by the industrial emissions followed by traffic/road dust (16.7%).     

微波消解/电感耦合等离子体质谱法同时测定食品纸包装材料与食品模拟物中24种元素

建立了微波消解/电感耦合等离子体质谱(ICP-MS)同时检测食品纸包装材料及3种食品模拟物(纯水、4%乙酸、10%乙醇)中Li,Be,B,Al,V,Cu,Mn,Zn,Cr,Ni,As,Sr,Zr,Se,Mo,Ag,Cd,Sn,Sb,Te,Ba,Hg,Tl,Pb 24种元素的分析方法,并对元素的迁移行为进行了研究。包装材料样品经微波消解后利用ICP-MS检测;迁移试验中的食品模拟物直接利用ICP-MS检测。在优化实验条件下,24种元素在0~1 000μg/L范围内线性关系良好;方法检出限(MLOD)为0.000 3~0.465 mg/kg;在1.0~1 000 mg/kg加标水平下的平均回收率为90.5%~125.3%;相对标准偏差(RSD,n=3)为1.2%~6.8%。该方法前处理简便、灵敏准确、适用范围广,可用于食品纸包装材料中元素含量的测定及迁移行为的研究,从而为食品纸包装材料的质量监督提供了科学依据。     

Determination of mercury, selenium, bismuth, arsenic and antimony in human hair by microwave digestion atomic fluorescence spectrometry

A novel method for determination of Hg, Se, Bi, As and Sb based on microwave digestion followed by continuous flow vapour generation atomic fluorescence spectrometry was developed. The digestion for Hg was based on a two stage digestion involving HNO(3) and H(2)O(2), whilst for the hydride forming elements a common digestion using HCl and H(2)O(2) was found to be the most effective. The instrumentation and chemistry were optimised in order to provide the best accuracy and precision. The method detection limit for hair samples was found to be 0.2 ng g(-1) for Hg and between 2 and 10 ng g(-1) for the hydride forming elements. The atomic fluorescence detector showed excellent linearity over the concentration ranges studied with linear correlation co-efficients between 0.99984 and 0.99997. To validate the accuracy of the method a human hair certified reference material (GBW 0706) was analysed and excellent agreement with the certified value was obtained for all elements.     

Comparison of different digestion methods for total decomposition of siliceous and organic environmental samples.

A comparison was made of different digestion methods for the total decomposition of siliceous and organically environmental samples prior to their analysis by inductively coupled plasma optical emission spectrometry (ICP-OES). In the present study, three different digestion methods, including microwave-assisted, hot plate heating and pressurized digestion (pressure bomb), were employed for the determination of nine heavy metals, i.e. Ag, Cd, Cr, Cu, Fe, Mn, Ni, Pb and Zn in sediment, soil, sludge and oil. The investigation of different combinations of acids through their analytical performance demonstrated that HCl plays a vital role in the determination of silver. The combination of HNO3 and HCl possesses more reactive ability in oxidizing organic matter. The recoveries of all elements of interest in sediment (NIST 2704) obtained by different digestion methods were found to be 86% to 113%, while microwave assisted digestion with various combinations of HNO3-HCl-HF and HNO3-HClO4-HF was considered to be a viable alternative to the conventional digestion systems because of its more intensive reaction conditions. The analytical results of four certified reference materials with different matrices, including sediment (GBW 07305), soil (GBW 07411), sludge (BCR R-143) and oil (NIST 1085a), by the microwave-assisted acid digestion method indicated that the recoveries of all elements of interest were more than 85% and the throughput of applied analytical method could be elevated significantly.     

Microwave assisted digestion of atmospheric aerosol samples followed by inductively coupled plasma mass spectrometry determination of trace elements

A microwave digestion method in a closed vessel was developed for the determination of trace metals in atmospheric aerosols using inductively coupled plasma mass spectrometry (ICP-MS). A recovery study for the elements V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Se, Cd, Sb, and Pb was conducted using multi-elemental standard solutions, NIST 1633b Trace Elements in Coal Fly Ash, and NIST 1648 Urban Particulate Matter. A simple digestion method using only HNO3/H2O2 gave good recoveries (90%-108%) for all elements except Cr in SRM 1648, but yielded low recoveries for SRM 1633b. A more robust method using HNO3/H2O2/HF/H3BO3 yielded higher recoveries (82%-103%) for the lighter elements (V-Zn) in SRM 1633b, and improved the Cr recovery in SRM 1648, but decreased the Se recovery in both SRMs. A comparative analysis of aerosol samples obtained at a remote mountain location Nathiagali, Pakistan (2.5 km above mean sea level), and Mayville, New York, downwind from the highly industrialized Midwestern United States, was carried out using Instrumental Neutron Activation Analysis (INAA) for the elements Cr, Mn, Fe, Co, Zn, As, Se, and Sb. The simple digestion method yielded excellent agreement for Cr, Fe, Zn, As, Se, and Sb, with slopes of the ICP-MS vs. INAA regressions of 0.90-1.00 and R2 values of 0.96-1.00. The regressions for Mn and Co had slopes of 0.82 and 0.84 with R2 values of 0.83 and 0.82, respectively. Addition of HF/H3BO3 did not improve the correlation for any of the elements and degraded the precision somewhat. The technique provides sensitivity and accuracy for trace elements in relatively small aerosol samples used in atmospheric chemistry studies related to SO2 oxidation in cloud droplets. The ability to determine concentrations of a very large number of elements from a single analysis will permit source apportionment of various trace pollutants and hence strategies to control the sources of air pollution. This is particularly important as the health effects of particulate matter are increasingly recognized.