Iowa State University Capstones, Theses and Retrospective Theses and Dissertations Dissertations 1931 The preparation of per acids and their salts Robert Roy Coons Iowa State College Follow this and additional works at: https://lib.dr.iastate.edu/rtd Part of the Inorganic Chemistry Commons Recommended Citation Coons, Robert Roy, "The preparation of per acids and their salts " (1931). Retrospective Theses and Dissertations. 13403. https://lib.dr.iastate.edu/rtd/13403 This Dissertation is brought to you for free and open access by the Iowa State University Capstones, Theses and Dissertations at Iowa State University Digital Repository. It has been accepted for inclusion in Retrospective Theses and Dissertations by an authorized administrator of Iowa State University Digital Repository. For more information, please contact [email protected]. li THE PRSPAHATIOH OF PER ACIDS AKD THEIR SALTS by Robert Roy Coons x'' A thesis Submitted to the Graduate Faculty for the Degree of DOCTOR OF PHILOSOPffif Major oubject Inorganic Chemistry ^jproTed; Signature was redacted for privacy. work Signature was redacted for privacy. Head of Major iiepartment Signature was redacted for privacy. li'eaii of tirad^uate College--. ^ . ; -] : / - Iowa State College 1931 UMI Number: DP12654 INFORMATION TO USERS The quality of this reproduction is dependent upon the quality of the copy submitted. Broken or indistinct print, colored or poor quality illustrations and photographs, print bleed-through, substandard margins, and improper alignment can adversely affect reproduction. In the unlikely event that the author did not send a complete manuscript and there are missing pages, these will be noted. Also, if unauthorized copyright material had to be removed, a note will indicate the deletion. UMI UMI Microform DP12654 Copyright 2005 by ProQuest Information and Learning Company. All rights reserved. This microform edition is protected against unauthorized copying under Title 17, United States Code. ProQuest Information and Learning Company 300 North Zeeb Road P.O. Box 1346 Ann Arbor, Ml 48106-1346 • \ T> / j '>C> «. 2 •> ACKNOILEOCSMMT !aiis opportunity is taken to acknowledgo Tery sincerely the many valuable stiggestlons and kindly criticisms of Dr. J# A, Wilkinson during the course of this investi^tlon» 4-0^ ^ - 3 - TABLE OF CONTESTS I, INTBODUGTIOM 6 II, FUiiPOSS OF THE lOTESTIGATION. .10 III, METHODS aSPLOYSD IH TllB PBESEHT STUDY X» I^sroxids,•XX A, Disodimsi A3rs@ii0t>d«,XX a. ISxperimentaX. IX X» Materials..XX B* Procedure and Obserrations..........XX 3, Analysis of Pro<3.u.ct0,,aXS b, ISxpXasation and Iaterpretati<m of HesuXte ...X3 2« SariiUE Peroxide.X5 A, Acid ^oXntion.......i..... .X^ a, Experimental* X5 X. Materials .X5 2, Procedure and ObserTatioas,.XS 3, Analysis of Products,.Xe B, Sodium Arsenate.,.,.X7 a, jSxperimentaX*•X? X. Materials,.X7 S, Procedure and Observations,,,.....,,X7 3, Analysis of Hesidue,«X? b, Explanation and Interpretation of - 4 - 3. Eleetrolytic Method.«I9 A, Blsodium Arsenate..19 a» Sxperlmental.19 I* Materials ..19 2* Proc edure and Obserrations19 3* Analysis of Products .SO b. iSzplanation of Hesults..................21 B* Biaodium Arsenate Plus ciodium Fluoride......22 a. Experimental »22 1. Materials*•SS 2. Procedure and Observations.22 3. Analysis of Products................2S 4. Sodium Peroxide..•••.••24 A. Disodium Arsenate. *.24 a. Sxperimental.24 1. Materials.•....,.....*.....•....*...24 2. Procedure and Observations.•.,24 3. Analysis of the Precipitate.........25 4» Table of Analyses.*».2? 5. Titration of Arsenic Acid with Sodium Hydroxide-—................*28 b« Explanation and Interpretation of Besults..«...«.•••••.28 5. Fluorine. *33 A. The Preparation of Fluorine....33 - 5 - a* Ixperimental..#33 Materials*« 2» Procedure and Observations.••••»«».#33 3m Drawing of Fluorine App!aratue»»»«»».3§ B* Aeid Solution*3? a* Experimental*,•.39 1« Materials*.37 2. Procedure and Observations*,*..3? 3, Malysis of Products,,•*••,38 b, ^planation of Result's,•..•39 C, Basic Solution* 40 a, Sxperiraental,40 1, Materials,•,40 g. Procedure and Observations,.,,,,40 3, Analysis of Products.,,,,,,,..,,.,,,41 b, iSxplanation of Results,,.,,,41 I?, GSRIBAL SDMIIARY AND CONCLUSIONS,,,, ,.43 7, LlflHATUHE CITED.,,,.,,,,,45 - 6 - IHTHOBUCTIC^ There are a number of acids to which the prefix "per** has been applied, for example» perchloric, periodic and per- aan^nic. In these cases the prefix "per" denotes only that they contain relatively more oxygen than the chloric, the iodic and the inanganic acids. Pric©^ defines trae per acids "as those which are either fomed by the action of hydrogen peroxide on ordinary acids, or else give rise to hydrogen peroxide on treatmeoit with dilute sulphuric aeidj with concentrated sulphuric acid many of them evolve ozonized oxygen, thus behaving similar­ ly to the metallic peroxides and to hydrogen peroxide itself. In some oases the free acids are not known, but the same defini­ tion will apply to the formation or decomposition of their salts". In the follot?ing table^ the elements forming per acids are underscored: m IV f n B c N 0 ~ A1 ~ Si J s So Ti 1 " Cr " Ga Ge "" As Se T Zr Cb Mo In SE sb Te Ge - «• Jh Ta w T1 Pb Bi "" - Th u 1. Price, Per-Acids and Their Salts, p. 1-8, (1912). Leaving out of consideration the elements in the first two rows^ short periods, of the periodic table, it will be observed that the formation of per acids is confined to groups IV, V and VI, and more particularly, with the exception of tin and selenium to family A of these groups. With hydrogen peroxide as one of the reacting substances, under proper conditions, per acids and per acid salts may be fomed from the following elements: titanium 2, zireonium 3, vanadium*,4. columbiumS , tantalum6 , chromium? , molybdenumS , tungsten3 , and uraniua^^. Per acids and their salts may be foraed, not cxily by the use of hydrogen peroxide or its simple derivatives, such as sodium peroxide or barium peroxide, but also by electro­ lytic oxidation or anodic condensation^^. Respecting the elements of family B, the chart shows only two which form per acids and per salts, namely tin and selenium# Tanatar^^ obtained a perstannic acid by the action of 30^ hydrogen peroxide on stannic acid which had been pre­ cipitated from a solution of stannic chloride by sodium carbon- T, L^y. CcBSpt. rend.. 108. 294 (1889}. 3. Pissarjewslsry, Zeltsch. anorg» Chea., 25. 378 {1900}. 4. Pissarjewsky, Zeitsch. physik. Chem., 43, 173 (1903). 5. Balk© and aaith, J.Am»Ghem.3oc., 30, ll37 (1908). 6. Melikoff and Pissarjewsky, ZeitschTaaorg.Chem., 30,340(1889). 7. Wiede, Ber., 30, 2178 {1897}| 31, 516 (1898). 8. Pechard, CompIT rend., 114* 1481 (1892). 9. Pechard, ibid., 112, 10W"ll891). 10. Fairley, Jour. CKem» Soc., 31» 125 (1877). 11. Gaven and Lander, Systematic Inorganic Chemistry, p.305(1922). 12. fanatar, Ber., 1184 (1905). - 8 - at©» The perstaaaic acid precipitated as a white amorphous powder. Spring^^ used barium peroxide in making perstannate* Dennis and Brown^^ reported an impure perselenate, analog<Mis to potassium persulphate, prepared by electrolysis, in a divided cell, of a satu-rated solution of potassium selenate ccmtainlng a little free selenic acid» A few years later Dennis and Koller^® eleetrolyzed solutions of pure potassium selenate and pure selenic acid under conditions most favorable to the formation of potassium persulphate and persulj^uric acid, but in no case was there any indication of the formation of either a perseleaate or a perselenic acid. By ©aploying solutions of different concentrations and varying the current density, #L0 Bauer was unable to obtain a perselenate, Hanu^ and Kallauner^*^, who do not claim to have prepared a perbisamthate, obtained a product which gave less than 1^ active oxygen. Plnerua Alvarez^® claims to have prepared sodium per- arsenate by dissolving disodium arsenate in water and alcohol, o cooling to 0 , and then adding sodium peroxide, Ko analyses irer© made, however. Aschkenasi 19 repojrted perarsenates pre­ pared by means of barium peroxide and hydrogen peroxide, the IS. Spring, Bull# 3oc. Chim., V3), 1, l80 (1889)* 14. Bennis and Bro«n, J. Am. Chem. "^oc», 23, 358 (1901). 15. Dennis and Koller, ibid., Jl, 949 (ISW). 16. Bauer, Unpublished Thesis,"Tibrary, Iowa State College, Ames, lofra, (1927). 17. Hanus and Kallauner, Zieitseh. anorg. Ghem., 70. 232 (1911). 18* Alvarez, Cbem. News, 94» 269,(19061. 19. Aschkenasi, Germen PalEeht 296,796 (1914). solid feeing obtained by evaporation of the soluticws under redaeed pressure and gentle heating. - 10 THE PURPOSE OF THE IK7BSTXGATIQH From a perspective view of the picture presented ia the Introduotioa, the contrast in the nmsber of elements of families A and B that form per acids and per aalts, oame the suggesticai for the present study. Tin Is the only element of family B that distinctly forms the per salts. The purpose of this investigation is to use several methods with a typical member of family B in preparing j>er acids and per salts. Arsenic was selected, since, from its position in the periodic table, it would probably be the most liJsely to form per acids and the corresponding salts. HYDROGSg PMOXIDE METHOD Sisodium Arsenate SsperiaentaX HaOb, 3G^, Merck and Go# Nai,HAs04,7H»0« Baker and Adaiaacm* HaaSaOj^SH#©, V^ilkins-Anderson, iodine, Hesttlbimed, Baker a©d Adaffiscai* HaSO^, C,P», Grasselli Chemical Co. HCi, G»P.^ Grasselli Chemioal Go, iSi^OH, C#P«, Grasselli Chemical Co» KI, C*P*, Baker and Adamsoa. SafiGO«» G.P,, Baker and Adamsoa, Star$h^ Soluble, General Cheeiical Co. PaO«» Anhydrous, Merek and Co* Prooedur® and Ohiservationa About 10 g. of disodiua arsenate were added to 50 eo. of a solution of hydrogen peroxide at room temperature# Ho preoipitate foimed. "The solution waa eTaporated over con- centj^ted sulphuric acid under reduced pressure and a white residue was left. A second preparation was made by treating a solutic®, of disodium arsenate saturated at 0^ with 50 cc.
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