An interlaboratory study of the oxygen 18-isotope ratio MS (18O-IRMS) method using water and ethanol for detecting water addition in wines and fruit juices is reported. The measurement of these two parameters constitutes an internal referencing approach contributing to a better detection of a certain kind of adulteration of wines and fruit juices. In this approach, the same initial steps as in the AOAC Official Methods 995.17 and 2004.01 are used to recover pure ethanol: Fruit juices are completely fermented using yeast, and the alcohol is distilled from the fermented juice or from the wine with a quantitative yield (>96%). Then the 18O deviation (δ18O) of ethanol is determined by IRMS. This parameter is compared with the δ18O of water determined by the so-called equilibration procedure using CO2 gas. An interlaboratory study was organized by our laboratory in 2011 to establish performance data for determinations in wines and fruit juices. The study was organized and interpreted according to the guidelines of the International Union of Pure and Applied Chemistry International Harmonized protocol. Thirteen laboratories analyzed five juice materials (two orange, one pineapple, one grape, and one apple) and five wine materials (three red, one white, and one rosé) as blind duplicates. The pooled among-laboratories reproducibility of the method for measuring δ18O in water was found to be 0.8‰ for both wines and fruit juices. The pooled among-laboratories reproducibility of the method for measuring δ18O in ethanol was found to be in the order of 1.0‰ for wine and orange juice, and around 2.2‰ for the other fruit juice types tested.
To explain the principles of an atomic force microscope ͑AFM͒ at the level of introductory physics, we have created an inexpensive model of an AFM using a modified phonograph stylus in place of the AFM cantilever and tip. The sample is positioned under the stylus using a micrometer stage. A 10 mW laser diode is used to produce a beam, which reflects off a very small mirror glued to the end of the stylus. No electronic detection is used, and students measure the deflection of the tip directly from the movement of the laser beam on graph paper. The laser beam is deflected roughly 1 cm for each 10 m of stylus deflection, making it easy to collect data.
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