ALBERT

Notes: Summary Table II sums up the products obtained from the various test substances on interaction with the individual complex cations. The substances are arranged according to the periodic table, and, when several anions derived from the same element have been studied, these anions are listed alphabetically. In cases of polybasic acids, the acid salt precedes the neutral salt. Characteristically shaped crystalline products are represented by +, turbidities byT, and non-characteristic precipitates byNC. It will be noted that in some cases no reaction products were obtainable. This is especially true with many of the organic acids as well as their salts. With some of the organic acids, this is probably due to the extreme dilution of their saturated aqueous solutions. For ease of application and rapidity of detection, taking the ions in the order in which they appear in the table, we make the following recommendations: The luteo chloride is applicable for differentiation of ferri- and ferrocyanides, the reactions of ferricyanide ion also being very characteristic with the purpureo and roseo chlorides. Hence, these two latter reagents may also be used for detection of this anion. Of the free organic acids tried, only sulfosalicylic and tartaric reacted at all. These may be readily distinguished from each other by the luteo chloride, the long needles being very characteristic of most sulfur containing compounds. The reaction products obtained from sulfosalicylic acid and either purpureo or roseo chlorides are also very characteristic, and may well be used to differentiate this substance from the other organic anions mentioned. The crystals formed by alkali metal oxalates with the croceo, xantho and roseo complex reagents are characteristic enough to serve as a means of differentiating the oxalate ion from other organic anions, particularly citrates and tartrates. Fluosilicates and silicotungstates may be readily differentiated by the flavo nitrate, both because of size and aggregation pattern of the needles obtained. The clumps of needles formed by silicotungstic acid are especially characteristic of this substance. The roseo and xantho salts give almost the same type of precipitate with salts of phosphomolybdic acid. These will serve to distinguish salts of this acid from corresponding salts of phosphotungstic acid. In the latter case, only turbidities of spherular masses were obtainable. The chloroaquo complex may be recommended particularly for the detection of secondary phosphate. The luteo salt has already been recommended for microscopic detection of pyrophosphates, but care must be taken not to mistake the hexagonal platelets formed by this anion for those obtainable with tellurites. The size and degree of transparency will serve to differentiate these substances. Microscopically no distinction can be made between arsenates and arsenites by the complexes thus far studied. By means of color reactions on heating in alkaline medium, however, it is possible to distinguish between these two anions by using the luteo chloride. The reaction product formed by pyroantimonate with the isoxantho complex may be recommended for microscopic detection of this anion. The reaction with the croceo chloride will serve to distinguish ortho- from metavanadate. Nearly all sulfur containing anions react with the luteo chloride, and, in most cases, needles or flat rods are formed as a result of the reaction. However, in terms of the reaction products formed, bisulfites are readily distinguishable from bisulfates after treating with the flavo nitrate, and sulfates and sulfites are distinguished by the reaction with the luteo chloride. For purposes of detection of other sulfur acids, the following reactions may be recommended: for dithionates reaction with the luteo, flavo, xantho and roseo complexes, and for thiosulfates the reaction with the luteo chloride. The reaction of the selenate with flavo nitrate may be used to differentiate this substance from selenites. In like manner the tellurite may be distinguished from the tellurate by the reaction product obtained with the luteo chloride. As differential reagents between chromates and dichromates, both the luteo and flavo complexes may be employed. In addition, the reaction products with the croceo, xantho and purpureo complexes can also be recommended for detection of the chromate, and that with the croceo for detection of the dichromate ion. The carbonato complex may be used to differentiate between fluorides and bifluorides, and also between bromates and bromides (sodium salts only). As characteristic reagents for bifluorides we also recommend the croceo and xantho salts. The luteo chloride may be utilized to differentiate between iodates and iodides, the bushy needles formed with iodates being especially characteristic. The isoxantho complex can be recommended for detection of perchlorates and the luteo salt for detection of permanganates.