Preparation Method: Matrices for Soil Preparation

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General Applications

•	Certified Concentration of a Standard
•	Nitric Acid Oxidations
•	Two Methods for Certification
•	ICP-MS Sensitivity Optimization
•	Cleaning Quartzware

Sample Preparation

•	Dissolving Graphite to Measure by ICP
•	Quartz Powder Preparation
•	XRF vs. ICP for Concrete Metals
•	Dissolution of Si in Metals
•	Analysis of Sediment Samples
•	Reactions of Sulfur and Bromine
•	Determination of As in Sediment
	Matrices for Soil Preparation
•	Trace Metal Analysis of Air Condensate
•	Analyzing Cement
•	Determination of Hg in Sediment
•	Sample Size for Steel Analysis
•	Analyzing For Br by ICP
•	Analytical Tips for Tin
•	Analyzing Silicone Oils
•	Ashing Technique for Metals
•	Coal Sample Digestions
•	Ashing Procedure For Tin
•	Using Blue HDPE Containers
•	Sn and Tl Soil Extraction
•	Filter Papers for EPA Method 353.2
•	Determination of Hg in Biological Matrices

Stability & Compatibility

•	Eliminating High and Erratic Blanks
•	HF in Multi-element Standards
•	Chemical Stability of Standards
•	Questions About Mo, Ti, and Hg
•	Overcoming Au Stability Issues
•	Contaminants of Ethanol in HDPE
•	Vegetable Oil Stability
•	ICP Multi-Element Solution Incompatibilities
•	Multi-Element Compatibility and Preparation
•	Stability of Mercury in Plastic Bottles
•	Cadmium, Lead, and Copper Stability
•	Diluted Blends of Single Element Standards
•	Incompatible Metals Within Solution
•	Stability of Oil Standards

Measurement

•	ICP: Applying F Test Results
•	Controlling Transpiration
•	Calculating Weighing Uncertainty
•	Expressing Sensitivity
•	As Line Interferences from Fe
•	Measurement Uncertainty
•	Positive Interference with Hg 202
•	Linearity Slope Variance
•	Mercury and Antimony Troubleshooting
•	Zn Interferences Upon the Na 330.237 nm Line
•	Aluminum, Beryllium, and Chromium Interferences

Matrices for Soil Preparation

Who is Paul Gaines?

Meggie had a question regarding soil preparation for ICP-MS analysis. She wanted to know if concentrated nitric acid and HF was enough for digestion, or if she should use a stronger acid such as perchloride to destroy the potential Si colloid.

RE: Matrices for Soil Preparation

Dear Meggie, First, I would suggest that you consult EPA methods 3050, 3051 and 3052 which are all written for the digestion of sediments, soils and sludges and involve the measurement techniques of AAS, ICP-OES and ICP-MS. In direct response to your question, the use of perchloric acid would dehydrate the silicates formed and prevent any collodial silicate formation reactions. This approach should work well using published procedures for perchloric acid digestions. However, the use of HF will form the fluoro-silicate complex which should keep the Si in solution and therefore prevent collodial precipitation. Each matrix has both advantages and disadvantages which have to be sorted out by the analyst. If you decide to use perchloric acid, then please observe the necessary precautions. Best of luck.

	Paul R. Gaines, Ph.D. Serving you in chemistry

An Inorganic Ventures feature - August 2004

DISCLAIMER Advice offered by Dr. Gaines is intended for the individual posing the question. We urge you to contact us to verify whether these suggestions apply to your circumstances.

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