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Originally formulated to accept up to 2.0 M ammonium phosphate with fast and easy mixing, Ultima-Flo AP demonstrates high counting efficiency and quench resistance for a wide variety of sample types. For those researchers using ammonium phosphate buffers to elute radiolabeled inositol phosphates from HPLC columns, Ultima-Flo AP provides high sample acceptance over the entire gradient. Other gradients, such as up to 1.0 M PBS and 1.0 M sodium hydroxide, can also be accepted by this premium cocktail at good mixing ratios.
|Product Brand Name||Ultima-Flo|
|Quantity in a Package Amount||2.0 Units|
|Sample Type||Flow cocktail, Flow cocktail (aqueous gradients), Flow cocktail (water/methanol gradients), Flow cocktail (ammonium phosphate)|
|Unit Size||2 x 5 L|
A researcher was counting 1 mL fractions and wished, to add a maximum of 2 mL of a “safer” cocktail to, help comply with local regulations. The sample is a gradient run from 100% to 45% of solution A, the remainder is solution B.
A researcher called explaining that he was trying to determine 14C in phytoplankton in sea water. However, he needed to remove some interfering inorganic 14C by treating the sea water with 6 N hydrochloric acid.
To help determine the proper pump for use in a laboratory automation project, a researcher contacted our laboratories and requested viscosity data for ULTIMA-Flo™ M and ULTIMA-Flo AP for various ratios with water.
For over 50 years PerkinElmer has been a leading supplier of radiochemicals, liquid scintillation cocktails, vials and nuclear counting detection instruments. Today is no different. We have always been committed to providing you products for all of your radiometric needs and we are still committed today.
Address any liquid scintillation counting need with PerkinElmer’s liquid scintillation cocktails, tissue solubilizers and specialty chemicals. You can be confident that our products meet the highest standards of performance, user safety, environmental safety, and user convenience. Plus, our portfolio of application notes can assist you with even the most complex liquid scintillation counting applications you perform in your research.