微波消解火焰原子吸收光谱法测定皮革中的铅和镉

以硝酸作为消解剂,用微波消解皮革样品,采用火焰原子吸收光谱法测定皮革中铅、镉的含量。试验优化了微波消解条件,并对共存离子的影响进行了讨论。铅、镉测定结果的相对标准偏差分别为3．6％、6．8％,加标回收率分别为92．1％～98．1％、100．0％～110．6％。     

微波消解-分光光度法测定石油焦中的钒

研究了用微波消解分光光度法测定石油焦中的钒。在石油焦样品处理中采用了常规溶样及微波消解两种方法。重点研究了微波消解石油焦样品的方法,详细考察了微波消解时样品的最佳用量、消解压力、功率、时间,建立了最佳微波消解程序。结果表明两种方法测定结果基本吻合。样品测定的RSD小于4、02％,加标回收率均在98．6％～102．7％之间,但微波消解法的溶样速度是常规法的10倍。钒的线性范围为0～8．0g／L。结果表明,微波消解分光光度法测定石油焦中的钒是一种快速、准确且无环境污染的方法。     

微波消解-微波等离子体炬原子发射光谱法测定汽油中痕量铜和铁

采用微波消解方法处理汽油样品,用微波等离子体炬原子发射光谱法（MPT—AES）测定消解液中的铜和铁含量。考察了微波功率、载气流量、工作气流量、酸效应、共存离子等实验参数对测定铜和铁的影响,并进行了系统优化,测得铜和铁的检出限分别为2．1ng／mL和22．1ng／ml。线性范围分别为0．01～12μg/mL和0．1～100μg／mL。详细考察了微波消解酸种类及用量,消解温度、运行时间及微波功率等对微波消解的影响。结果表明,各元素测定结果的RSD均小于3．5％,铜的回收率为93％-107％,铁的回收率为92％-106％。与传统的碘-二甲苯-硝酸反萃取处理法相比,此法具有元素损失少,操作简单,无需使用有毒氧化剂,减少污染,改善工作环境等优点,是行之有效的汽油样品预处理方法。     

微波消解-微波等离子体炬原子发射光谱法测定原油和渣油中的铁、镍、铜和钠

采用微波消解技术消解原油和渣油,利用微波等离子体炬原子发射光谱法测定原油和渣油中的Fe、Ni、Cu、Na。考察了原油和渣油的最佳消解条件、各元素测定条件及共存元素对测定的影响。方法对Fe、Ni、Cu和Na元素的检出限分别为22、42、2．0和1．0μg/L;线性范围分别为0．1-100、0．15-50、0．01-5．0和0．006-2．0mg／L,应用该方法测定实际样品中Fe、Ni、Cu和Na的相对标准偏差分别为3．9％、3．6％、5．5％和3．4％。微波消解样品的测定结果与常规干法灰化法的测定结果相吻合。本方法省时、省酸、简便、快速,没有环境污染,具有一定的实际应用价值。     

微波消解-分光光度法测定石油焦中的硅

重点研究了微波消解石油焦样品的方法,详细考察了微波消解时样品的最佳用量、消解压力、消解功率、消解时间,建立了最佳微波消解程序：在样品处理中也采用了常规溶样方法,并分别用两种样品处理方法测定石油焦中的硅。结果表明两种方法测定结果基本吻合,样品测定的RSD小于3．85％,加标回收率在97％～103％之间,但微波消解法的溶样速度是常规法的10倍。实验结果表明,微波消解分光光度法测定石油焦中的硅是一种快速、准确且无环境污染的绿色环保方法,具有一定的实用价值。     

化妆品中Hg、As和Pb的微波消解—氢化物发生ICP—AES法测定

采用微波消解－氢化物发生ICP－AES法测定化妆品中Hg、As和Pb,加入L－半胱氨酸消除了过渡金属离子的干扰,考察了微波消解、氢化物发生的最佳条件。建立的方法简便快速,测定Hg、As和Pb的RSD分别为0．59％、1．2％、2．4％（n=10),样品加标回收率分别为98．5％、99．3％和100．1％。该法已应用于化妆品的常规测定,得到满意的结果。     

微波消解-氢化物发生原子荧光光谱法同时测定化肥中砷、汞含量

采用微波消解样品前处理手段以及双道原子荧光光度计,建立了微波消解一氢化物发生原子荧光光谱法同时测定化肥中砷、汞含量的方法。通过试验确定了样品前处理方法,对负高压、灯电流,载气、屏蔽气、原子化器高度、酸度等测试条件进行了优化。在优化的工作条件下,砷、汞含量分别在0-50ng／mL和0—1．0ng／mL范围内与荧光强度呈良好的线性关系,线性相关系数分别为0．9996,0．9996,检出限分别为0．085,0．008ng／mL,回收率分别为88．8％～107．4％,90．0％～120％,测定结果的相对标准偏差均小于7％（n=6）。     

微波消解-分光光度法测定催化裂化原料中铁和镍

采用微波消解技术处理催化裂化原料，用分光光度法测定样品中的铁和镍。详细考察了微波消解消化剂的种类和用量，消解时间，消解压力和消解功率对消解效果的影响，确定了最佳微波消解程序。将微波消解技术与常规分光光度法结合测定催化裂化原料中的铁和镍，与常压溶样方法测定结果相吻合。该方法的相对误差小于0．9％，相对标准偏差(n=5)小于2．7％，两种样品制备方法的加标回收率均在95．2％～102．4％之间。实验结果表明：该方法简便、快速、准确、节省试剂、无环境污染，在催化裂化原料质量检测方面切实可行。     

微波消解-氢化物发生原子荧光光谱法测定头发样品中的微量汞

对微波消解-氢化物发生原子荧光光谱法测定头发样品中微量汞的方法进行了研究。采用HNO3和H2O2作消解剂,在最佳微波消解条件和测定条件下,线性回归线方程为Y=259．7c 155.4,相关系数r=0.9996,检出限为0．01ng／mL,线性范围为0-20ng／mL。测定结果的相对标准偏差为0,4％～2．8％,回收率为94,0％-102．0％。     

微波消解分光光度法测定污水中的总磷

建立微波消解分光光度法测定污水中总磷的方法。采用微波消解法消解污水．讨论了消解时间和压力对消解效果的影响。测定总磷的线性范围为0～0．4mg/L。用该法测定总磷环境标准样品中的总磷,测定结果与标准值基本一致,测定结果的相对标准偏差为1．65％(n=5)。     

不同消解方式对土壤中锑的原子荧光法检测影响

氢化物发生-原子荧光光谱法是土壤环境中锑检测所广泛使用的方法．土壤的消解前处理分别采用王水微波消解（半消解）、混酸全消解（硝酸＋高氯酸＋氢氟酸）方式．研究结果表明王水微波消解对锑的检测效果较好,标准土壤9次测定值的相对标准偏差为3．6％,实际样品的回收率为96％-102％．而采用混酸全消解的方式测定值偏低,实际样品的回收率为78％～86％,而且精密度超过5％,这是由于在赶酸过程中样品易被蒸干而造成痕量锑元素的损失．     

Optimization of digestion methods for sewage sludge using the Plackett-Burman saturated design

The Plackett-Burman saturated factorial design was used to select optimized dissolution conditions for sewage sludge samples. Three different digestion methods were applied: i) microwave oven digestion in a domestic oven with Parr-type reactors; ii) microwave oven digestion with controlled-pressure reactors; iii) pressure bomb reactor heated on a hot plate. The three methods were validated by statistically comparing the metal contents found with the certified ones of the sewage sludge sample (BCR 145R). No significant differences were obtained and the RSD values were lower than 3% in all cases. The metals were determined by flame-AAS. The variables studied were the following: microwave power; digestion time; predigestion; volume of hydrochloric acid; volume of hydrofluoric acid; volume of nitric acid. The operative advantages offered by microwave digestion with controlled-pressure reactors were also considered. Received: 23 July 1997 / Revised: 31 October 1997 / Accepted: 5 November 1997     

Optimization of digestion methods for sewage sludge using the Plackett-Burman saturated design

The Plackett-Burman saturated factorial design was used to select optimized dissolution conditions for sewage sludge samples. Three different digestion methods were applied: i) microwave oven digestion in a domestic oven with Parr-type reactors; ii) microwave oven digestion with controlled-pressure reactors; iii) pressure bomb reactor heated on a hot plate. The three methods were validated by statistically comparing the metal contents found with the certified ones of the sewage sludge sample (BCR 145R). No significant differences were obtained and the RSD values were lower than 3% in all cases. The metals were determined by flame-AAS. The variables studied were the following: microwave power; digestion time; predigestion; volume of hydrochloric acid; volume of hydrofluoric acid; volume of nitric acid. The operative advantages offered by microwave digestion with controlled-pressure reactors were also considered. Received: 23 July 1997 / Revised: 31 October 1997 / Accepted: 5 November 1997     

Optimization of microwave digestion for mercury determination in marine biological samples by cold vapour atomic absorption spectrometry

Optimization of acid digestion method for mercury determination in marine biological samples (dolphin liver, fish and mussel tissues) using a closed vessel microwave sample preparation is presented. Five digestion procedures with different acid mixtures were investigated: the best results were obtained when the microwave-assisted digestion was based on sample dissolution with HNO3-H2SO4-K2Cr2O7 mixture. A comparison between microwave digestion and conventional reflux digestion shows there are considerable losses of mercury in the open digestion system. The microwave digestion method has been tested satisfactorily using two certified reference materials. Analytical results show a good agreement with certified values. The microwave digestion proved to be a reliable and rapid method for decomposition of biological samples in mercury determination.     

Investigation of microwave assisted drying of samples and evaporation of aqueous solutions in trace element analysis

Investigations of microwave assisted drying of sample materials and microwave assisted evaporation of aqueous sample solutions and acidic digestion residues were accomplished by means of special rotors for the microwave digestion system MULTIWAVE. To check the results obtained by microwave assisted drying, the samples were also conventionally dried at 105 degrees C in an oven. The following samples have been dried: 10 g each of meat, fish, apple, cucumber, potato, mustard, yogurt, clay and marl; 1 g each of certified reference material TORT 2 (lobster hepatopancreas), BCR 278 (mussel tissue) and BCR 422 (cod muscle); 500 g garden mould. Microwave assisted drying takes 40 min for organic samples and 30 min for inorganic material. Important is a slow increase of microwave power during the first 20 min. The results agree well with conventional drying at 105 degrees C. Losses of As, Se and Hg have been investigated for 3 CRMs. Only Se shows losses in the range of 20%. Losses of As, Be, Cd, Co, Cr, Cu, Fe, Hg, Li, Mg, Mn, Mo, Ni, Pb, Sb, Se, Sr, Ti, Tl, V and Zn after evaporation of aqueous samples and acidic solutions after wet digestion, respectively, have been investigated. 50 mL aqueous solution was evaporated almost to dryness within 25 min. The recovery of Hg is 40-50%, of Se 90-95% and of the other elements 97-102%. 0.2 g each of TORT 2, BCR 278 and BCR 422 have been digested with 4 mL nitric acid and 1 mL hydrochloric acid by means of the microwave digestion system MULTIWAVE. The digestion residue was evaporated almost to dryness and dissolved again in 10 mL diluted nitric acid. In this case no element losses have been observed. The measured concentration of As, Cd, Cu, Fe, Mn, Hg, Pb, Mo, Ni, Se, Sr, V and Zn agree very well with the certified values. An important prerequisite for good recoveries is not to evaporate the solutions to complete dryness.     

Development of a modified medium pressure microwave vapor-phase digestion method for difficult to digest organic samples

A previously developed microwave heated vapor-phase digestion method for biological samples was modified to enable digestion of difficult to digest organic samples. Organic samples containing ca. 100 mg of organic carbon were digested using volume calibrated quartz inserts inside second generation type medium pressure microwave vessels. As digestion reagents, 98% sulfuric acid, 70% nitric acid and 30% hydrogen peroxide were used. The accuracy of the method was tested with six certified reference materials. Elements Ca, Fe, K, Na, Mg, P and Zn were determined from NIST-SRM 8433 corn bran. Elements Al, Fe, Cd, Cu, and Zn were determined from NRCC DOLT-2 dogfish liver. The element Cd was determined from IRMM-VDA Cd in polyethylene No. 001-004 reference materials. These elements were determined from digested samples by ICP-OES. The results were close or within certified limits. The modified method could digest nearly all the materials tested, including the above mentioned reference materials, 2-nitrobenzoic acid (2-NBA), 4-NBA and copper(II) phthalosyanine-3, 4',4',4'-tetrasulfonic acid tetrasodium salt (CPS). The method could not digest 3-NBA.     

微波消解-微波等离子体炬原子发射光谱测定啤酒中的铜、锌、铁、锰、硒、锶

建立了微波消解-微波等离子体炬原子发射光谱(MPT-AES)法测定啤酒中微量元素。考察了微波前向功率、工作气流量、载气流量等参数,确定了MPT-AES法测定各元素的最佳实验条件。在该条件下铜、锌、铁、锰、硒、锶的检出限分别为7ng.mL-1、46ng.mL-1、13ng.mL-1、8ng.mL-1、1.2ng.mL-1、5.6ng.mL-1。相对标准偏差(RSD)均在0.9%～4.8%之间,线性范围分别为0.1～100μg.mL-1、0.5～100μg.mL-1、0.5～100μg.mL-1、0.1～100μg.mL-1、0.01～10μg.mL-1、0.05～100μg.mL-1,加标回收率均在96%～110%之间。     

Determination of arsenic in traditional Chinese medicine by microwave digestion with flow injection-inductively coupled plasma mass spectrometry (FI-ICP-MS).

A simple, rapid, and sensitive method with high sample throughput was developed for determining arsenic in traditional Chinese medicine (TCM) in the form of uncoated tablets, sugar-coated tablets, black pills, capsules, powders, and syrups. The method involves microwave digestion with flow injection-inductively coupled plasma mass spectrometry (FI-ICP-MS). Method precision was 2.7-10.1% (relative standard deviation, n = 6) for different concentrations of arsenic in different TCM samples analyzed by different analysts on different days. Method accuracy was checked with a certified reference material (sea lettuce, Ulva lactuca, BCR CRM 279) for external calibration and by spiking arsenic standard into different TCMs. Recoveries of 89-92% were obtained for the certified reference material and higher than 95% for spiked TCMs. Matrix interference was insignificant for samples analyzed by the method of standard addition. Hence, no correction equation was used in the analysis of arsenic in the samples studied. Sample preparation using microwave digestion gave results that were very similar to those obtained by conventional wet acid digestion using nitric acid.     

Determination of metal concentrations in lichen samples by inductively coupled plasma atomic emission spectroscopy technique after applying different digestion procedures

Three digestion procedures have been tested on lichen samples for application in the determination of major, minor and trace elements (Al, Ca, Cd, Cr, Cu, Fe, K, Mg, Mn, Na, Ni, Pb, V and Zn) in lichen samples collected in Aegean Region of Turkey by inductively coupled plasma atomic emission spectrometer (ICP-AES). The acid mixture of concentrated HNO₃, H₂O₂ and HF were used. The instrument was optimized using lichen matrix considering RF power, nebulizer pressure, auxiliary flow rate and pump rate. The accuracy of the overall analyses was first estimated by analysis of two certified reference materials. Good agreement between measured and reference values were found for almost all elements. As the second way of determining the accuracy, results obtained from independent analytical techniques (ICP-AES and instrumental neutron activation analysis (INAA)) were compared for all elements by analyzing real samples. Correlation coefficients of two techniques for the elements ranged between 0.70 (Mg) and 0.96 (Fe). Among the three digestion systems, namely microwave, open vessel and acid bomb, microwave digestion system gave the best recovery results. The method detection limit (MDL) was computed using reagent blanks of microwave digestion system since it provides cleaner sample preparation. Detection limit is adequate for all elements to determine the elements in lichen samples. The precision was assessed from the replicate analyses of reagent blanks of microwave digestion system and was found to be less than 1.5% relative standard deviation (R.S.D.).     

Investigation of microwave assisted drying of samples and evaporation of aqueous solutions in trace element analysis

Investigations of microwave assisted drying of sample materials and microwave assisted evaporation of aqueous sample solutions and acidic digestion residues were accomplished by means of special rotors for the microwave digestion system MULTIWAVE. To check the results obtained by microwave assisted drying, the samples were also conventionally dried at 105?°C in an oven. The following samples have been dried: 10 g each of meat, fish, apple, cucumber, potato, mustard, yogurt, clay and marl; 1 g each of certified reference material TORT 2 (lobster hepatopancreas), BCR 278 (mussel tissue) and BCR 422 (cod muscle); 500 g garden mould. Microwave assisted drying takes 40 min for organic samples and ¶30 min for inorganic material. Important is a slow increase of microwave power during the first 20 min. The results agree well with conventional drying at 105?°C. Losses of As, Se and Hg have been investigated for ¶3 CRMs. Only Se shows losses in the range of 20%. Losses of As, Be, Cd, Co, Cr, Cu, Fe, Hg, Li, Mg, Mn, Mo, Ni, Pb, Sb, Se, Sr, Ti, Tl, V and Zn after evaporation of aqueous samples and acidic solutions after wet digestion, respectively, have been investigated. 50 mL aqueous solution was evaporated almost to dryness within 25 min. The recovery of Hg is 40–50%, of Se 90–95% and of the other elements 97–102%. 0.2 g each of TORT 2, BCR 278 and BCR 422 have been digested with 4 mL nitric acid and 1 mL hydrochloric acid by means of the microwave digestion system MULTIWAVE. The digestion residue was evaporated almost to dryness and dissolved again in 10 mL diluted nitric acid. In this case no element losses have been observed. The measured concentration of As, Cd, Cu, Fe, Mn, Hg, Pb, Mo, Ni, Se, Sr, V and Zn agree very well with the certified values. An important prerequisite for good recoveries is not to evaporate the solutions to complete dryness.