Microwave techniques applied in sample digestion, drying, solvent extraction and desorption, chromogenic reaction, specificity analysis and microwave atomization were summarized.
综述了微波技术在样品消解、干燥以及溶剂萃取和解吸、生色反应、形态分析、微波雾化等方面的应用。
METHODSA method based on microwave sample digestion and inductively coupled plasma-mass spectrometry (ICP-MS) detection was established for determination of trace elements in Arctii.
方法用微波消解器消解,用电感耦合等离子体质谱仪测定牛蒡子中的微量元素含量。
The optimal conditions for determination of mercury in water by cold vapour generation atomic fluorescence spectrometry and for sample digestion with potassium permanganate are described.
研究了以高锰酸钾消化,冷原子荧光法测定水质中汞的最佳测定条件。
The optimum conditions of sample digestion and ICP-AES operation were discussed. This method has been applied to the determination of high content silicon in aluminium alloy with satisfactory results.
详细考察了高硅铝合金的微波消解和ICP - AES测定条件,经对数个实际样品的检测,方法的分析指标和测试精密度满意。
A method of digesting pineapple sample in microwave digestion jar and detecting copper, zinc, iron and manganese in the same digested solution with FAAS was discussed.
探讨了用微波消化罐消化样品、以火焰原子吸收光谱法在同一体系中测定菠萝中微量元素铜、锌、铁、锰的方法。
Methods: Graphite furnace atomic absorption spectrometry was used to determine cadmium content by microwave digestion sample.
方法:采用微波消解样品,石墨炉原子吸收法测定镉含量。
Results from two common methods for sample pretreatment: microwave digestion and traditional hotplate digestion were compared and discussed in the thesis.
在论文中以微波消化和传统加热板消化此两种常见的方式进行样品前处理,比较并讨论其分析结果。
Microwave-assisted digestion as a novel technique for sample pretreatment has been paid more attention to.
微波消解作为样品预处理的新技术已受到普遍关注。
The paper describes the rationale of microwave digestion technology and advantage of the microwave digestion sample.
简述了微波消解技术的基本原理、微波消解样品的优势。
The elementary procedure of this technology contains sample disposal, protein enzyme digestion, in-situ PCR and the detection of sequence copied.
原位PCR技术的基本步骤包括标本处理、蛋白酶消化、原位PCR扩增和扩增后产物的检测。
Microwave digestion technique is a quick and effective sample preparing method in recent twenty years, and is continously developed and perfected.
微波消解技术是一种快速而有效的样品制备方法。
Application of microwave techniques in sample drying, digestion, extraction, and atomization were summarized.
综述微波技术在样品干燥、消解、萃取、雾化等方面的应用。
Digest the soil sample by waterbath digestion method with colorimeter. Detect mercury in soil by atomic fluorescence spectrometry.
采用比色管水浴消解法消解土壤样品,以原子荧光光度法测定土壤中的汞。
For catalytic digestion the mix acid and sodium molybdate were added at the same time, this pretreatment of urine sample was simple and quick.
尿样采用一次加入混合酸与钼酸钠的催化消化法,使样品前处理简便,速度加快。
In the analysis, pretreatment of digestion is not needful. The injection of urine sample was composed of urine sample and 2 perceut nitric acid half and half.
本法对尿样不经消化前处理,用2%硝酸对倍稀释后直接进样于石墨炉中进行分析测定的基础条件和铬在尿中的稳定性进行了研究。
As a new pre-process technology in environmental sample, the microwave digestion has many advantages over traditional chemical digestion method.
作为环境样品预处理的新技术,微波消解法与传统化学处理方法相比,具有诸多优点。
Methods: the sample, after the nitric acid and the perchloric acid digestion was induced in the flame atom absorption spectrophotometer with standard series comparison quota.
方法:样品用硝酸和高氯酸消化后,导入火焰原子吸收分光光度计中,与标准系列比较定量。
Experiment results are not affected when omitting digestion process to prepare TP standard sample by using a simple and fast method to eliminate disturbance of turbidity or color.
采用简单快速的方法消解水体中浊度或色度的干扰,在制备总磷标准时可省略消解操作步骤,实验结果不受影响。
The applications of microwave digestion in ironstone, ferroalloy and pig iron are discussed. A new method for dissolving sample is established.
并且探讨了微波消解技术在铁矿石、铁合金、生铁等样品上的应用,建立了合适的样品处理方法。
Decomposition of silicate sample with microwave digestion process is fast, simple and economical and should be popularized in production control.
用微波消解法来分解硅酸盐试样具有快速、简单、经济的特点,在生产控制上具有一定的推广作用。
Sample pre-treatment digestion of heavy metals, pesticide residues, food, mud, earth, fish, organic matter and so on.
样品前处理消解重金属、农残、食品、淤泥、稀土、水产品、有机物等。
The effects of sample dissolving regents, microwave digestion conditions and matrix interference are discussed.
对溶样试剂、微波消解条件、基体干扰进行了相关讨论。
The effects of sample dissolving regents, microwave digestion conditions and matrix interference are discussed.
对溶样试剂、微波消解条件、基体干扰进行了相关讨论。
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