The Present $tat* of the Xvth*dx of Determining S/032/60/026/008/001/011 Impurl%ies in Samlconduotor Materials BONBC64 a p p I~.,,140n Of iustrameu~a), ma7hods, aspeoially i vat i and mass upe-.ir~;ssoplc atalysis, vh!,oh eomplote vaoh other, and tan solre the proID--. Mi--T-.,ImpiAr-1tAea U, to 40-7 .. 10-9~, 1. Ncddak Oectut.4 p TJ the 8tn kendsl~wp-, Coltlg~-, I. A f M.. Kcrtrima.#.. 1. S. Mabiatim, V. 1. Kuzns,.lS(-U.. V T3,. Y-it8jm!r-- VK -j Y~ A. 1! AM., 'r!L,-. j M. N. PO"T lkoral 'L,,-K. F~4 i imcn,.p . !,._Y. Lipls, E. YF. Vavnaht5?y,, P%rA Yu, F. B din are matition4d in thisi paysr. Th9re are 48 S..- *! s tr 0 3, 2 Gtrvar,, : bri tit, rt., at,el ' Pc 1 1 9t . Caro  ALIMARIN, I.P.; USH"OVA, N,*N. Histor7, of the discovery of n1oblum and tantalum. Trudv Inst.ist. est.i t,dch-30:15-.28 160o (MIRA 13:8) (Niobium) (Tantalum)  ALIMARDI, I.P.; KRAUSZ, Imre Data on the microdetemination of tallium. Mogy kem folyoir 66 no.7: 262-263 Jl 160. 1. Zotvos Lorand Tudomanyogyatem Szervetlen as Analitikai Kemiai Intezete, Budapost,  PESHKOVA, Valentina, Moiseyevna; GR%IOVA, Margarita Ivanoirna; ALEAM., - L 5~MA I - 1.P., p.rof., ot-v, red.; GOLIDENBKRG, G.S.., red., --t6OZ red. [Practical manual an spectrophotDmetry and o6lorimetry) Frakti- cheskoe rukovodstvo po spetrofotometrii i kolorizaetrii. Roskyap Izd-vo Mosk. univ... 1961. 172 p. (MIRA 1511) 1. Chlen-korrespondent AN SSSR (for Alimarin). (Spectrolibc-tometry) (Colorimotry)  AIJWIN, Ivan Favloviob; FRID, Berta lzrailevna; IEONTIYEVA, K.D.1, red.; KOGANp tekhn. red. (Quantitative mJ.oroohemical analysis of minerals and oresj laboratory manuiLl) Kolichestvennyl'mikroWmicheskii analiz minermlov i rud:; prakticheskoe rukovodstvo. Moskva, Gos. nauchno-tekhn.iisd-vo khim,lit-ry., 1961, 399 &IRA 15:1) 1. Vsesoyuznyy na-ochno-issledovatel'skiy insjitut minerall- nogo syrIya (for Alima ing Frid) (Mineralogical chemistry) (Microchemistry)  URMIYEV, A.P., otv.red.; AE!~~N [.Pred.; GEL11UH, N.B., red.; KLIMUITA, V.A., red.; KRRIMOV, A.P.*, red.; KUZ=SOV, V.I.. red.; LEVIN, B.S., rea.; PODGAYSKAYA, E.I.,'red.; RUMADZE. Ye.G., red.; TALIROZE, V.L.. red.; TSUKHM11, A.M., red.; SEIEMYAKIN, P.M., red.; SHRYNIUM, Yu.N., red.; IMIMAKOV, H.S., tekhn.rod. Econforance on Organic analysial Soveshchania po organichaskomu analimu. Tatisy dokladov. Koukva, Isid-vo Mosk.univ., 1961. 170 p. (MIRA 14:4) 1. Solreshchanip po organicheskomu analizu. 1961. (Chemistry, Anslytical-Congre8ses) (Chemistry, Organic-Congreeses)  PESHKOVA, Valontina Moiscryevna; GROMOVA, Margarita Ivanovna; ALIMARIN I P prof,, otv. red.; GOWDOBERGY G.S., red.; 4 *'UA5-RE"'VA,-tTV.,', tekhn, red. [Practical manual on spectrophotometry and colorimetry) Prak- ticheskoe rukovodstvo po spektrofotometrii i kolorimetrii. Moskva, Izd-vo Mcsk.univ., 1961. 172 p. (MIRA 15:3) (S."otrophotometry) (ColorLnetry)  Mimi ~Iv zi 1, L- - rt. . -. U -i .1 -1 1 -j ;~ " s ~ U 'IR rihi Ji 13 A '13- t 0. 0 4;1 -6 1 Hip g I Mi~, V APIA  jai 0 u mn Aul A 31 t 1.9 Ill's 10 x 41 q Gr 1j, Is i'l lip k; 1 1 v i B11111 -ail  S/27/62/C00/001/233/237 A154/A10l AUTHORS: Alitnarin.--.Ii'.F,.~..Bilimovich, 0. N.''. T=4 The present state, of, the analytical chemistry of tantalum -and niobium PERIODICAL: Refarativnyy Izhurna],j Metallurgiya,'no.-.1, 1962, 1a,12,. abstract 1x74.1 (vi sb.. "Metody lop~edeleniya i analiza redk. elementov". Moscow, AN SSSR, 1961, 487-536) TEX7!1:i This revd*w;. gives.. methods-for", the;, following zSpectrochemioal,:, determination-of;Nb and;Tei. in granites;. Quantitativet,X-ray-speotral Ideterminaticn of NI). and .-Ta' IrL. ininera,13. emd- rocks. : SpectroohemioaLl determination. of ; Ta~ and Nb In -.ores.~(,arc method). Separation and.determination of the amount of Nb and Ta from ores and minerals wilb phonylarsonic acid. Separation of Nb and Ta from Ti and fib from Zr by selenions acid. Detemination of small. amounts of Na and Nb in the presence of Ti by the method of co-precipitation and isotopic dilution. Extraotiox~ separittion- of Ta from -Ti with oyclohexanone and determination of Ta. Chromatographic separation of Nb and Ta from Ti and detemination of Nb and Ta. Deteinnination of small quantities of Nb in rocks and minerals by the rhodanide Card 1/2  The present state of ... S/137/62-/000/001/233/237 A154/Alol method (1, 2, 3). Determination of small amounts of Nb and Ta in rocks and minerals from a single weighed batoh. Photometria determination of Ta in ores with dimethyl-fluorone. AIIELlySiS of binary alloys of Ni with Ta by the /2-radiation reflection method. Extraction-photometric determination of admix- tures of Ta in metallic Zr, Hf and Nb. Photometric determination of Ta in a Ti-alloy with arsenazo. Dotermination of Ta by differential speotrophotometz7. Polarographio determination of admixtures of Nb, Ti and Fe In metallic Ta and its compounds. Oscillographia determination of Nb in Ta-Nb-alloys. Spectral determination of admixturets in Nb. Chemico-speotral determination of Bi, Cd, Sb, Sn and Pb in metallic 11, Nb and Ta. Colorimetric determination of P in ferroniobium with preliminai"y separation of the latter In the form of ammonium phosphoromolybdate. Polarographic determination of minute amounts (of the order of micrograms) of Pb, Sri &ad Cd in metallic Nb. Determination of H v 02 and N in Nb, Mo and W by the vacuum- melting method with the use of a Fe Eath. There are 130 references. N. Gertseva [Abstracter's note: Complete translation] Card P,/2  22332 S/189/61/000/003/00',)/002 5' ~)DD 2 2 0 3, 17-11, 11 GD D224/D302 AUTHORS: Golovina, A.P., and Tenyakovaq L:.A. TITLE: Fluorometric determination of zirconium in the presence of titanium by quercetin PERIODICAL: Moskva. Urtiyersiteto Vestnik. Seriya II. Khimiya, no. 3. 19619 60-62 TEXT: The authors describe a fluorometric-chromatographic method for determining zirconium in the presence of titanium by quercetin. The procedure is a further continuation of the process described by M.A. Kbnstantinova, Shlozinger (Ref. 1: Referativnyy sbornik po lyuminestsentomu analizu (Symposium of References on Luminescent Analy- sis) vyp. 1, AN SSSR, 1951). in which fluorescent reactions are am- ployed in conjunction with the preliminary chromatographic separation P of cations on paper; this enables such elements as Ga and Al, Ti and Zr, Ile and Al, Ta and Nb, etc. to be separated and determined. As I.P. Alimarin, A.P. Golia-vina and N.F. Stepanov (Ref. 2: Nauchn.. dokl. Card 1/ 4  22332 S/189/61/000/003/00',.)/002 Flkiorometric determinationooo D224/D302 Vysshey shkoly, Khimiya i khimicheekaya tekhnologiyat 2, 285(, 1958) have already indicatedg a zirconium quercetinate solution gives a strong orange-yellow fluorescenoe on exposure to ultraviolet light which masks any fluorescence due to titanium quercetinate, so it is essential to use both chromatographic and fluorometric techniques in order to obtain the desired result. The first step consisted of the development of a chromatographic procedure: the pipetting of aliquots of zircanium solu- tion onto Whatman No. 1 paper, followed by the spraying of the spots with a quercetin-6thyl alcohol solution and then by their drying and subsequent identification under a Pk-2 ultraviolet lamp. Next, a study was made of the behavior of Zr, Ti, Th, Fe3+, Al and Be on paper with various solvents--mixtures of hydrochloric acid and ethyl alcoholq isopropyl alcohol and methyl-ethyl-ketone-- the resulting chromatograms being examined afterwards in visible and ultraviolet light. The data showed that it is possible to differentiate between Zr, Tig Fe and Be on one cbromatogram, and, therefore, to determine zirconium in the presence of titanium and iron; a 4 : 1 mix".-ure of ethyl. alcohol and Card 2/ 4i  22332 S/18',)/61/000/003/002/1302 Fluorometric daterminationoo* D224,tD302 hydrochloric acid appears -to be the most suitable solvent# In the last stage this solvent is used to effect a pz-eliminary 8-hour sepa- ration of the above elements on chromatograpbLc paper. After spraying with 0*01% quercetin solution the intensities of fluorescence of the spots under ultraviolet light were compared 41th those of standards containing known amounts ot zirconium (Oo,12 - 15,r); the experimental error was + 002 - 0,4a,. .rhe finalized technique was subsequently tested by using it to determine zirconium ir titanium-iron ore which had been previously analyzod gravimetrically; the sample wr4s prepared for analysis by dissolving a small quantity In hydrofluoric and sul- furic acids (Ref. 31 Analiz'mineralOnogo syrlya (Analysis of Mineral Products) Goskhimizdat, Leikingrad, 1956). Via ZrO2 content of the ore as found by the fluorometrAc-chromatographic procedure is 602% as com- pared with a figure of 6979r, obtained by the :.;ravimetric technique* On the basis of this relatiively close agreem)nt the authors thus con- clude that their method gives completely reliable results. There are 3 tables and 3 Soviet-bloc references* Card 3/4  22332 . X I, S/.';-89/61/000/003/002/002 Fluorometric determination,#.. D2"4/D302 ASSOCIATION: Kafedra analiticheskoy khimii (Department of Analytical Chemistry) SUBMITTED: March 18, 1960 Card 4/4  KUZIMSOV, D.I.; ALIMARIN, L.P. Synthesis of o-bydroxybenzenesulfitIc aeld,. a new chemical reagent. Izv*AN SSSFOtd,kbim,nauk no.6:1k:5-3256 A 1616 (Km 14:6) 1. Moskovskiy gosudarstvennyy~univurpitet ime II.V.Lomonosova. (Benzenes Xinlelacid)  S/08 1 /61 /000/02 3/015/061 B1 1 7/B1 47 AUTHORS. Alimarin, I. -P., Yakovlev, Yu. V., Shulepnikov, M. N., -P-eregozhin, -G--, P. TITLE; Determination of small amounts of impurities in thallium, .-allium, phosphorus, and antimony by t,he wethod oP radio- activation analysis PERIODICAL: Referativnyy zhurnal. Khimiya, no. 23, 1961, 128, abstract 23D97 (Sb. "Radioakt. izotopy i yadern. izlucheni,ra v nar. kh-ve SSSR. v. I". Yi., Gostoptekhizdat, 1961, 293 - 297) TEXT: A compurison was mado between the radiochemical and spectroscopic v"--iant:~ of tix aotiv~ttion analysis. Gencral schemes of tho rudiochemictil .,-k~pur~,tion of imptirities in the determination of Cu, Zn, As, ALL, and P in -..-allium and of 1.1n, Cu, Zn, Ga, As, P, and Cr in antimony, as well as the 11L;in r-spectra in the deternination of Mn, Zn, Cu, Cs, and Sb in thallium ,,nd 0; As, Mn, and Ga in phosphorus are presented. [Abstracter's note; Complete translationi  ALIMARIN, I.P.-, SHEN' KHAN'-SI [Shen Han-hsil Extraction method of investigating the complexing of zirconium and hafnium with bromomandelic acid. Zhur.neorg.kbim. 6 no.9: 2o62-2o68 S '6i. (MIFLA 14'.9) 1. Moskovskiy gosiadarstvennyy universitet im. M.V.Lomonosova. (Zircinium compaunds) (Hafnium compounds) (Mandelic acid)  -- ALDLARIN,-LF,; SHEN' KHAN'-SI [ShGn Han-hoil Gravimetric determination of zirc6niim after its precipitation with cyclo]2exanol-l-carboxylic acid. Zhur..Anal.khim. 1.6 no.2:162-165 Mr-AP 161. (MIRA 3-4:5) 1. M. V. Lomonosor Moscow State University. Ziroonium--Analysis) Molohexanecarboxylic acid)  ALMA.RINP P.; YAKOVLEV, BECHUUKPNIIO:)V, 14J,; VLASOV, D.A.; CHERNOV G.M. j SMOW.9-B". Radioactive determination4tif impuritits In big# purity thallium. Zhurmal.khim. 16 no.2123j-W Mr-Ap 161. OGRA 14t 5) 1. Vernadsky Institute of Geochemistr,- and Anaiitical Chemistry, Academy of Sciences U.S.S.R., MOSCOW, (TbaMum-Analysis)  Flummotric dot!trminatlon or zirconiun in t%o prownce of t~t=-L%m '-,,y the une of qrercetin. Vest M on!; awn Ser.l': iddre 16 no.3:60-62 14y6-Jo 161. 14: 1-0) 1. Kafedra analf:tlchezql~oy llAirii ',Ios':ovo*!,o(;o poud .-,~.;tronnoao ,Lui,iversitota, (Fluoreaconce) ("!izorcotin)  AT, Y"NO 1. P,.; PETRIKOVA, M. N. Now methods for orlptnic ultramicroanalysin performed on a microscope stage. Nem tud koz:L MTA 16 no,31237-245 161. 1. Institut geekhimli i analiticheakoy khimii im. V. 1. Vornadskege.. Moskva.  AUTHORSt TITLE: PERIODICALt Alimarin, I. P., and Shen Han-hei S/075/E-1/016/003/003/007 B106/B208 QuantitativF- determination of scandium by halogen-substi- tuted mandelic acids Zhurnal analAticheskoy khimii, Y. 16, no. 3, 1961, 279-283 TEXT: In their last report (Ref.l: Alimarin I. P., Shen Han-hsi. Zh. analit. khimii 15, 31 (196o)), the authors had devised a new method of determining scandium with mandelic acid. Soandium mandelate being compar- atively well soluble in water, the authors studied the applicability of halogen-substituted mandel:Lc acids for scandium precipitation. p-chloro, p-bromo, and p-iodo mandelic acids were studied. Table 1 shows the deter_ mined solubilitios of thes-B reagents in water. In order to find out the optimum conditions of precipitating scandium, the method described in Ref. 1 was used. Far loss p-halogen-substituted mandolic acid than mandelic acid is necessary for a completia precipitation of scandium. Concentrations of 0.02 M p-chloro, or p-bromo mandelic acid, and 0.01 M p-iodo mandelic acid are sufficient for precipitation, Scandium was found to be quantitatively Card 1/12  Quantitative determination cf ... 23592 S/075/61/016/003/003/007 B106/13208 precipitated in acid medium by all three reagents studied. The p-halogen mandelates of scandium still precipitate quantitatively from considerably, weaker acid solutions than scandium mandelate which does not completely precipitate any longer at pE > 3.2 owing to its high solubility in ammonia. The introduction of a halogen into the benzene nucleus of mandelic acid increases the stability.of -;candium complex compounds in alkaline solution. The authors studied the composition of those compounds that were separated from acid solution and were then washed with ether and alcohol. Scandium was determined by- annealing the compounds dried at 1100C to the oxide, while the organic portion of the compounds was determined by ceriometric titration according to M. R, Verma (Ref-4: Verma M. R., Paul S. D., J. Soi. Ind. Res.. 12' B, 178 (1953); Ref.51 Verma M. R., Paul S. D., Nature 173, 1237 (1954)). The orystal water content was calculated as difference to 10* and also determined thermogravimetrically. The composition of compounds corresponds to thii formula H 3 [Sc(Hal-C6H503)~ -H 20 (Hal - Cl, Br, I). The thermogravigrams ol,.' scandium halogen mandelates show thatthe crys- tal water is released at 120-1600C. At 260-2800C, the compounds begin to decompose, at 50CI-5409C the,r are converted to scandium oxide. Table 3 shows the solubility of the resultant compounds in water, Table 4 presents Card 21/12  23592 S/075/61/016/00 3/00 3/007 Quantitative determination or B106/B208 the reaults of scandium determination by means of the three reagents stud- ied. 'This method permits .he determination of mg-amounts of scandium in 100 ml solution. Since ra-,-e earths are precipitated only at higher pH by p-halogen mandelic acids, these reagents also permit a separation of scan- dium f:rom rare earths. lft,an scandium is determined with p-bromo mandelic acid In the presence of rare earths of the cerium group, part of the rare earths is copreci.Pitated in one single seandium precipitatioll.Reprecipita- tion is therefore necessary. The disturbing effect of thorium may. be elim- inated by masking with cit:rio acid. Table 5 shows results of scandium determination in the presence of rare earths of the cerium group p-halcgen mandelates of scandium can be extracted with organic solvents. ~_Ohlo'ro and p-bromo mandelates of acandium are well extraotable with n-butanol, isoamyl alcohol, cyclohexanone, ethyl acetate and other alcohols, ketones, and esters, while they are insoluble in ethyl etherv methanol, ethanol, benzene, chloroform, carboij tetrachloride, etc. p-iodo mandelate of scan- dium cannot be extracted with organic solvents. The authors studied the extraction of p-chloro and p-bromo mandelates of scandium with isoamyl alcohol. Already at one single extraction, 98-100%. of the scandium com- pounds pass over to the organic phase. They may be re-extracted from the organic solution with I N hydrochloric a--id. It was found that in this way Card 3/12  23592 S/075/61/016/003/003/007 Quantitative determination of B106/B208 also microamounts of 4candium were extractable and thatthe separation of scandium from large amounts of rare earths was possible. Table 6 shows the results of separating scandium from rare earths of the cerium group by extraction of p-bromo mandelate with isoamyl alcohol at pH 3.0-3.5. There are 3 figures, 6 tables, and 5 references: 2 Soviet-bloc and 3 non-Soviet-bloc. The three references to English-language publications read as followst Belcher R., Sykes A., Taltow J. C., Anal. Chim. Acts, 10, 34 (1954); Verma M, R., Paul S. D.j J. Sci. Ind. Res. 12 B, 178 (1953); Verma 9. R., Paul S. D., Nature 173, 1237 (1954).. ASSOCIATION: hloskovskiy goaudarstvennyy universitet im. M. V. Lomonosciva (Moscow Sta~te University imeni M. V. Lomonosov) SUBMITTEDs December 13, 1960 Card 4/12  ALDIARIN, L,P.; SHAKHOAIA, N.V. Gravim3tric detm.-mination of scandium by means of benzeneseleninie and banzonasulfinic UCids. Zhure anal. khim. 16 no. 4: ja2-416 Jl-Ag 161. (MMA 14:7) 1. V.I. Vernadskl-Z7 Instl-tute of Geochemistry and Analytical Chemistry, Academy of Sciences U.S.S R.., Moscove iScandivn-Analysis)  ALIPARIN, I.P.: FADEYEVA, '1.I.; PETROVA, T.N. Gravimetric determination of sonndium with phenylphosphinic acid. Zhur.anal.khim- l6d no.5:50-551 S-0 '61. (MIRA 14:9) 1. Lomonosov Mos,-.o,i State University. (Scandium-Analysis) (Phosphinic acid)  ALIMARVIO I. P.; BILIMOVICH, 0. N. Quantitative determination of niobium and tantalum by the Isotopic dilUti,Dn method. Coll Cz chem 26 no.1:255-261 Ja 161. (Ew 10:9) 1. Institut gookhimli i analiticheekoy kh1xii im. V. I. Vernadskogo, Akademiya nauk SSSR, Moskva. (Nioblum) (Tantalum) (Isotopes)  26382 S/032/61/027/008/002/020 B107/B206 AUTHORS: Alimarirt, I. P. , Borze'nko,.ra, N. P.,and Zakarina, N. A. TITLE: Detection of titanium traces in pure aluminum by means of salicyl hydroxamix acid PERIODICAL: Zavodekaya laboratoriya, v. 27, no. 8, 1961, 958 - 960 TEXT: The known methods of detecting titanium traces in metallic aluminum do not permit extraction of the color complexes. Detection with salicyl hydroxamic acid, however, offers some advantagess The titanium complex is stable between pH 5 ard 18 N H 2so4; it dissolves in amyl alcohol, methyl alcohol, ethyl alcohol, acetyl acetone, etc.1 sensitivity amounts to 10-5mg of Ti/ml (Ref- 5, see below); the reaction is selective, only FIII interferes; the synthesis of the reagent is simple (P. Rogan, V. Mareeek. Chem. Listy, 45~, 461 (1951)). The method elaborated by the authors uses (ixtraction irith acetyl ecetone and measurement of the ab sorption maximum at 37 51 n~4. The molar extinction coefficient. is here Card 1/2  26382 S/032/61/027/008/002/020 Detection of titanium traces ... B107/B206 4860. At this wavelength, the coextracted salicyl hydroxamic acid absorbs to a certain degree, but this absorption remains constant when maintaining the working instructions. The Lambert-Beer law holds for concentrations between 0.01 and 1-5~49/ml- The 0-40F-4) spectrophotometer serves for measuring; vessels with a liquid layer 1 cm thick are used. 5-10-3 to 2-10-4% of Ti may thus be determined with an accuracy of 5 - 15%. With specially purified reagents and a special quartz vessel with a layer 5 cm thick, 2-10 of Ti ma.y still be determined with an accuracy of 10 - 20%, There are 1 figure, 2 tables, 7 references: 5 Soviet-bloc and 2 non- Soviet-bloc. The two references to English-language publications read as follows: Ref. 5: J. Xavier, A. K. Chakraburtti, P. Ray. Sci. and Culture, 3, 146, 20 (1954); Ref-7% A. E. Harvey, D. L. Manning, J. Amer.Chem. Soc., 72, 4488 (1950). ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova (Moscow State University imeni M. V. Lomonosov) Card 2/2  ZOLOTOV, lu.A.; ALMARIA, I.P. Some aBpects of tbo *,lbeory of extraction of inner-complex empounds. DAL AN SSR 136 no. 3t603-606 Ja 161. WIFU 14:2) 1. Inatitut geokhizail i analitichookoy khimii imeni V.I. Vernadakogo AN SSSR. 2. Chlen-korrespondent jIJ4'SSSR (for Alimarin). (Extraction (Chemistry)) (Complex compounds)  B103/B208 AUTEORS: Alimarin-L I. P.9 Correeponding Member AS USSR,, Te-tFu=11 -077M., and Toze Yun'-syan TITLE- Separation of niobium e.nd tantalum by extraction of niobium-N-benzoyl-phenyl-hydroxy1 aminate PERIODICAL: Doklady Akademii nauk SSSR, v. 136, no. 5, 1961, 1073-1074 TEXT: To separate niobium and tantalum, which is one of the most difficult probLems in analytical chemistry (Ref. 1)t the authors used the oupferron analog N-'I-,-3nvoyl-phenyl-hyd:roxy1 amine (BPEIA) in the presence of tartaric acid (Ref- 7)- /::~--C- (BPHA) N-OH BPHA with niobium forms u complex compound soluble in chloroform. Tartaric aoid retains both niobium and tantalum in the solution, but does not hinder the extraction, This innovation has, converselyl greatly .W 20356 S/020)61/136/005/014/032 Card 1/3  20356 S/020/61/136/005/014/032 Separation of niobium and tantalum ... B103/B206 facilitated extraction, because the well-known difficulties of extraction arising in the presence of F could be thereby avoided. To check extraction, the authors used the radioactive isotopes 95 182 95 Nb and Ta " To eliminate an incomplete isotopic exchange, Nb and Ta 182 were added to the stable isotopes before dissolving the Nb205 and Ta 2015 samples in a mixture of concentrated H 2s04 and (NH 4)2SO4* The resultant oake was dissolved in tartaric acid. The solutions thus prepared contained 0.35 U.9/ml Nb 205 and 0-30 mg/ml Ta 2051 and were 3 %, referred to tartar.1c acid. 1 ml of 1 Wo alcoholic BPHA solution was adde-d to 4 ml solution. After the precipitate was formed, 5 ml of chloroform were added, ar.d the mixture shaken for 3 min. The authors fow2d that the pH of tha aqueous phase did not change after extraction. Activity was measured In 2 ml taken from the organic phase by means of an apparatus with a y-coianter. The Nb and Ta extraction curves were plotted in dependence on the pH of tha solution on the basis of the measured values. The authors found that 98-100% niobium wake obtained Card 2/3  2030 S/020/61/136/005/014/032 Separation of i,.iiobium and tantalum B103/h208 in a PH range of 4-6 by E. single extraction, whereas no tantalum at all was extracted. At a Ta, tixtraction between PH 0-5 and 3.0, the tantalum compound is partly susper,ded at the phase boundary. In the range of PH 6-9 the extraction revults with tantalum are hardly reproducible. The authors checked thfis new separation method on artificial Nb-Ta mixtures. In each case, only one of the elements contained the radio- active-isotope. The results obtained confirm a satisfactory and quick separation of Nb and Ta up to a quantitative ratio of Nb : Ta - = 100 : 1, 1 : 100. Tahere are 1 figure, I table, and 7 references: 4 Soviet-bloc and 3 non.- Soviet -bloc. ASSOCIATION: Institut geokhimii i analiticheskoy khimii im. V. I. Vernads1rolro Akademii nauk SSSR (Institute of Geochemistry and Ana:Lyl;ioal Chemistry imeni V. I. Vernadskiyj Academy o:~ Sciences, USSR) SUEMITTED: November 16, 1960 Card 3/3  STI,NCIEVA,, St.,I ALIH&RT-N, L.j TSINTSEVICH, E. Behavior of irA-Um,in solutions oontaining sulfate ions,, .studied by the method of ion exchange. Pt. 2. Godi8hrik kbim tokh 8 no.2:17-23 161 (publ. 162].  TSIVTS&VICH, E.; STANCHEVA, St.) ALIMAIUR,-1. -... u~.- -0-i.- I Behavior of inditm in sulfate-ion solutions studied with the ion- exchange method, Codishnik khim tekh 8 nool:89-97 161 (puble 162],,  PEOMMIN, O.M. "Extraction of inner complex compounds of rare elements with N-Benzoylphenylhydroxylami.ne.." Report to be submitted for the Intl. Feigl Anniversary Symposium on Analytical Chemistry Edgbaston, Birmingham, Great Britain 9-13 Apr 1962  BUSEV, Alekscry Ivanovich; VINGRADOV, A.F.p akademik, glav. red.; _AlMW-M4-L.F--4- red.; BABKO, A.K., red.; VAY11SEM11, ZE.Te., red.; YMAKOV, A.N., red.; KUZt%ETSOV, V.I., red.; PAM, P.N.P red.; RYABCHIKOV, D.I., red.; TANANAYEV, I.V., red.; CHERIUKHOV, Yu.A..p red.; VOUMS, M.P.p red.; MMI, Ye.V., takhn. red. [Ana.3,ytical chemistry of molylxlenum)Analiticheskaia khimiia mo- libdena. (By) A.I.Busev. Moskvap Izd-vo Akad. nauk SSSR, 1962. 300 P. (MIRA 16:1) (Mo2ybdenum-Analysis)  UDALI-LSOVA, U.I.; SAVVRI, S.B.; 11MIODRUX, A.A.; 1"OVIKOV, Yu.P.; DODROLTUBSKUA, T.S.; SMAKOVA, S.I.; BnZGVIC-z., G.N.; SEM111KOVA, A.S.; B=AIM, Yu.I.,- TAKOVUKV, Tu.V.; BENODRUK; A.A.; CROTOVA,, M.K.; GUSEV~ N.I.; PAIEY, P.N.; VINOGRADOVj, A.P.,, akader-ik, glav. red.- ALIHARI1LJ,.Z.__ red.; UBKO, A.K., red.; WcXV, A,I,,, red.; VAITS11,11aN, E.Ye.2 red.; 'YE11MAKOV, A.N., red.; KUZHETSOV, V.I... red.; RIABC111ROV, D.I., red. toma; TANA11AYEV, I.V., red.; CH01110011, Yu.A,., red.; SMAVIV, N.M.,, red. tor-n-, VOIXNETS, M.P., red.; EOVICHNOVA, V.D., teklui. red.; GU."OKOVA, MI.,, tekhn. red. (Analytioal cheid.stry of uranium) Analitichesk-&1a khimiia urana. 11,oskva, Izd-vo ffind.nauk SM, 1962. 430 p. (MBA 15:7) 1. Ak-ademiya nau): SSSR. Institut Greokhimii i analiticheskoy khimii. (Uranium-Analysis)  ALIMARIN, 1. P,,; GOWVIN&, A.P.; TENYAKOVA, L. A. Determination of zirconium in titanium and iron-containing ores with quereetin. Metod, anal. khim-reak. i-prepar.no. 4:128-130 162. (MIRk 17:5) 1. Moskovskiy gosudaratvennyy universitet.  S/189/62/000/005/0,33/006 D204/D307 A'UTHOR-0: Belyav-skayal T. A., :--P and Mu Ping-Wen TITLE: Chromatographic separationB of zirconium and beryllium PERIODICAL: Moscow. Univeraitet.. Vestnik. Seriya II, Khimiya, no. 5, 1962, 41-44 TEXT:* The present work is a part of systematic study of the separation of Zr from metals with which it is commonly alloyed, by chromatographic methods. The sorption.of Zi and lie was first measured--up to 1111 HC1, up to 5N HNO 37 up-to 20% (NH 4)2C0 3f and up to 50 complexone III--on cationite KY-)_ (KU-2) and anionite AB-17 (AV-17) under static conditions. Comparison of the results revealed that the two metala,might be separated chromatographically froin 2N acids, 2% complexone III, and 5% Card 1/2  B/1-89/62/000/005/003/006 Chromatographic separations ... D204/D307 (14H 4)2 00 31 although the difference in sorption was not no pro- nounced. in the latter case. It was experimentally confirmed that Zr and Be may, be effectively separated on KU-2 from 2N H01 or 2N HNO 3 solutions, for Zr:Be ratios (n) varying from -2000:1 to -1:7000, by-passing the acid solutions ot the mix- tures over KU-2 packed in an 18 cm,.1.2 cm diam. column at 2 ml/min, eluting the lie with pure 2N acid and desorbing Zr with 4N acid. The metals were also separated in a 14 cm, 1.2 cm diam. column packed with KU-2 from a 2~o complexone III solution, with n varying from 25:1 to 1:800, eluting Zr with the pure soivent, removing complexone III from the column with water, and desorbing Be with 3N HC1* There are it figures and 2 tables. - ASSOCII~TION: Kafedre, analiticheekoy knimii (Department of Analytical Chemistry) SUBMITTED: December 149 1960 ~__.Card 2/2  J S/189/62/000/005/004/006 D204/D307 AUTHORS: Alimarin, I.P., Nikolayeva, Ye..R., and Masalovich, V. M. TITLE: A'study of the system ura.nium (IV) uranium (III) PERIODICAL: Mosco"Ar. Un-,xversitet. Vestnik. Seriya'II9 Khimiyaj no* 5, 1962,*50-54 TEXT: The electrolytic reduction'of uranyl salts was studied on an Hg cathode in -0.1 1.1N 11C1 H 2so 4, and RC104" under N2t with a Pt anode, at 40 50 and ;2 :- 15 0C,'for up to 4 hourst from solutions containing 0,01 or 0.1 mol *of U per liter. The highest degrees of reduction were observed in 0 4N H019 0.2N H,SO and 0.2N HClD (47 - 49, 40 - 44, and 3~ 36 % 2! 4' 4 respectively) for durations of 1.5 - 2.5 hre, at 12 150C; further increaVes of acidity or -time of reaction led to a decrease in the Card 1/2  S/1'89/62/000/005/004/006 A study of... D204/D307 degree of reduction, particularly in the case of H2 so 40 The forma redox potentials of the - -U (111).7 system, ;C' f - 'C at 13 or Z U~Ytot. = O.O1Mv oUn(I'V/e~ectrode, were found to be -0.335 + 0.001, --0.317 + 0.008, -0-304 + 0.002, -0-303 + 0.005, and -0,280 + 0,005 volts in 0.2N H So O.4N H SO 2 49 2 40 O.'2N HC19 O.4N HCl, and 0*2N HC104 respectively* It was shown that trivalent uranium can be potentiometrically titrated with Nli4 V0 31 using a W electrode. There are 3 figures and '.5 tablees ASSOCIATION: Kafedra analiticheskoy khimii (Department of Analytical Chemistry) SUBMITTED: March 31, 1961 Card 2/2  E -ALDWRI* TSYURUPA, K.G. M.V.Loinonosov and analytical chomistrj. Vop.ist.est.i b3kh. no.1201-61 162. 1 (NIRA 15W (Lomono:sov, Mikhail Vasil evich 1711-1765) (Chemistry, Analftic~ t f  s/186/62/004/003,/004/022 E075/E436 AUTHORS:. Zolotov, Yu.A., Alimarin, I.P. TTTI.I:',: 1'nfluence of tlf6'~ttj~reoTthe solvent on the extraction of internal complex compounds PERIODICAL: Radiokhimiya, v.4, no.3, 1962, 272-279 TEXT: The authors investigated the influence of the chomical nature of the solvent on the extraction of a number of internal complex compounds of Np(V), V M), Co (II), Ce, Fe and some other elements. The solvents used were alcohols, ketoncis, complex esters, simple esters, halogen substituted hydrocarbons and hydrocarbons. For each solvent the dependence of the extraction on the pH of the aqueous phase was studied and the comparison of the various solvents was obtained at the optimum pH values. It was shown that Np M it-nd Co (II) are extracted readily with solutions of tenoyl. trifluoroacetone in butyl alcohol. The internal complex compounds in which the coordination forces are not saturated are easier to extract-with active oxygen-containing solvents, in particular al~-.ohols, and are usually more difficult to extract with other compounds, such as hydrocarbons and their Card 1/2  s/186/62/004/003/oo4/o22 Influence of the nature E075/E436 halogen substituted deriviitives. The extraction of the complex' compounds can be made easier by their combinaiion with the excess-reagent. In this connection the application of polydentate reagents is considered ats possible in the future. The internal complex compounds with saturated coordination valencies are extracted with different types of solvents, including nonpolar.oxygen free solvents, such as chlorinated hydrocarbons. A scheme is given for the separation of the complex compounds with saturated and unsaturated coordination valencies. The "saturated" compounds are extracted with the reagent solution in a non-reactive solvent such as benzene; the compounds with the unsaturated coordination often remain in the aqueous phase. subsequently, the second element is extracted with an active solvent such as butyl alcohol.' There are 4 figures and 2 tables. SUBMITTED: March 25, 1961 Card 2/2  ALULARINO I.P.1 BILIMOVICH, G.N.; YAN YUY-ZEN' Study of the exeluinge between radioactive and stable niobivm in citrate complexes by the method of isotope dilution. Ra~Udkhlmia A+ no.4:510-5i2 t62-. (MIRA 15:11) (Niobium compounds) (Citraus) (Niobium.-Isotopes)  KUZNETSOV, D.I.; ALIMARIN,, I.P. Qmtitative deterzination of some rare elements by means of -naphthaleneaull'inic acid. Izv.vyeuch9b.zav.,- khim.i khim. takhe 5 no#l:2&-3D 262. N= 1514) I# Mookovskiy gosadarstvennyy universitet imeni loomonoeova, kafedm analiticheskoy khinii. (Naphthalenesul2inic acid) (Metals-Analysis)  . ALIMMUN, I.P.; GIBALO, I,,M.1- THIN' MUN-ZHUN [Chlin huany-jung) Separation of nLcibium and tantalum from titanium and iron by the chroinatograp1do method. Izv.vys.uchob.zav.;khim.i khim.tekh. 5 no.3:371+-377 142. GURA 15:7) 1. Moskovakiy go3ladarstvennyy universitet imeni Lononosova,, kafedra analitichoskoy khimii. (N.'LCbiUM) (Tantalum) (Ion exchange resins)  AMAMIMN, I.P.; NIKOIAYEVA., Ye.R.; TIKHO.NOVA, V.I.; BDBRMA, L.T. 0xidations-reductioz,properties of bivalent vansdi= coapt-ands, Zhur.neorg.khim. 7 no.2:298-3CV,. F 162. 11UPA 150) 1. Moskovskiy gosularstvennyy universitet imeni Lomonoso-va,, kafedra gnal4ticheiskoy kh'-ii. (Vanadium comwunds) (Oxidation-reduction reaction)  5/07 62/007/002/011/019 B1 45%110 AUTHORSs Alimarin, I. P., Petrukhin, 0. M. TITLE: The state of columbium and -tantalum in tartaric acid solutions PERIODICALi Zhurnal neorganicheakoy khitiiip vo- 7, no. 2, 1962, 401 - 406 TEXTs The state of Cb and Ta in 3% tartaric acid solutions was studied by ion exchange, extraction and dialysis. )A? -10P (EDE-10P) anionite and 10 -2 (U-2) cationite were utied as ion exchangers. The sorption coeffi- cient Kd was calculated by tho equation K (% of sorbed metal - V)A100 _% of sorbed metal)-m, where V - volume of solution, ml, and m = amount of exchanger, g. Ob 98 and Ta 182 vere used as tracers (Figs. 1,2). Tests with v- Ta in 3% trihydroxy gilutaric acid at cTa '0.25 mg/ml yielded a sorption minimum at PH- 7- In 3% oxalic aeid at o Cb - 5*10-2 mg/ml a sorption minimum at pH- 6 was observed. The percentage of colloidal formil (by dialysis measurements using Cellophane membranes) present in 3% tartaric Card 1AV.  S/078/62/007/002/0-11/019 The state of columbium, and B145/B110 acid solution (PH 39 ametal 0.25 mg/ml) was determined at 15 - 203~ for Cb, and 50 - 55fo for Ta. Extraction from 3% tartaric acid solutions (0.25 mg Cb, reap. Ta/ml) by mean's of alcoholic 10A triphenyl guanidine hydrochloride solution + n'Ltro-benzene was optimum at PH 2 - 3. Ta was found to form a precipitate at the interface, particularly at PH 2. It follows that ever the entire pH range studied, both Cb and Tit, in particular, are present only in the form of anions (the cationite does not absorb Cb at PH 3 - 5, or Ta at PH 6-5 - 7), L.e. monomeric, and, especially with Ta, in colloidally dispersed form (with Cb in the PH range 3.5 - 5, and with Ta in the PH range 4 - 8). The different behavior of Cb and Ta wi-th increasing concentration (Fig. 5) is due to the differeat hydrolytic stability of the respective tartaric acid complexes. 0b mz.y be masked by Ta, since Ta is present in eolloidally dispersed form already at oT. ' 6.8 - 10-3 mg/ml, Cb, however, only above cNb ~ 2-5 - 10-1 mg/ml, Boiling of the solutions prior to sorption destroys the colloids and increases sorption (by about 20% after 1 hr boiling). The extraction of Cb and Ta tartaric acid complexcis by Card 2/0,  S/078/62/0071/002/CI*11/019 The state of columbium and B145/B110 triphenyl guanidine hydrochloride might be used for separating the metals (at PH 3, extraction of Cb is 100/2, and that of Ta approximately 60~- There are 6 figures, 1 table,and 21 references: 11 Soviet and 10 non-Soviet. The four most recent references to English-language publications read as follows: N. It. Srinivasan. 'Proo. Ind. Acal. Soi ALA~ N 41 278 (1952); F. Fairbrother, J. B. Taylor. J. Chem.Soo.t 4946*M56 ; F. Fairbrother, D. Robinson, I. B. Taylor. J. Inorg. Nucl. Chem.8, 296 (1958); M- Haissinsky, Yang Jeng-Tsong. Analyt. ohim. actat A, 328 09~5)- ASSOCIATION: Institut geokhimii i analiticheskoy khimii im. V. I. Vernads- kogo Akademii nauk SSSR (Institute of Geochemistry and Analytical Chemistry imeni V. 1. Vernadskiy of the i1cademy of Sciences USSR) SUBMITTEDt January 30, 19,51 Card 3/0  ALIMARIN, I.P.; PETRUXHIN, O.M. Extraction of niobium and tantalum N-banzoylphenylhydrcixylaipinates. Zhur.neorg.khim. 7 no.5:1191-1196 Yor 162. rMIRA 15:7) 1. Inatitut geokhimii i analiticheskoy khimii imeni II.I..Vernadakogo AN SSSR. (NiobLum) (Tantalum) (Complex compounds)  3/078/62/007/012/001)/022 B144/B180 AMORS: Alimaring I. P.9 Bilimovich, G. N.l Tslui Hsiang-hang TITLE: Extraction of niobium and tantalum as 8-hydroxyquinoline complexes from bydroxy acid molutions PERIODICAL: Zhurnal neorganicheskoy khimii, Y. 7, no. 12, 19621, 2725-2730 TEXT: 11b and Ta were extracted from 2% tartaric, oxalic, citric or trihydroxy glutaric acids (pH I - 12) wit'h CHCl 31 C2H4Cl 21 toluene, CCl 4' isoamyl alcohol# isobutyric aldehyde, metlVl-ethyl ketone, cyclohexanome, amyl acotate of diisopropyl ether. The effic~enby of Nb extraction de- creased in the order citric, tartaric, trihydroxy glutaric acid. The curves for the first two show,ed maxima at PHr-4-5 and -9-5, and a minimum at pH 6 - B. In the eubsequut tests the complex was extracted from citric acid (pH 1- 10). With both polar and non-polar solvents the curves for the extraction of the Nb oomplex were the same shape as described above. 'Extractive separation of the Ta complex was only successful with polar solvents. CH Clo C H CL and toluene were best for the eoparation 3 2 4 2 Card 1/2  S/078/62/007/012/009/022 Extraction of niobium and tantalum ... B144/B160 of Nb and Ta. Further tests concerned extraction efficiency as a function of the-concentrations of 8--hyAroxyquinoline (a), citric acid (b), and - Nb (c). a) The reagent-WO molar ratio must be at least,-/10, preferably %1140, in mixtures with an ollithum PH of 4-5 or 9.5. b) When the citric acid:Nb205molar ratio exceeds 50, Nb extraction decreases. c) The extraction efficiency in acid media increases as the Nb content falls. It was 91.6% with min Ab content of 5*10 -4 nglml, but only 18-5% with 0-5 mg1ml, This is altributed to direr formation which occurs In the acid range when the Nb conleol increases, These Polymers decompose in the alkaline range where the degroe of extraction is independent of the Nb content.* There are 9 figures and I table, SUBMITTED: December 23j 1961 Card 2/2  S/075/62/017/OCII/001/003 B106/B1011 AUTHORS: (t!f arin, 1~ P,, Gibalo, TITLE: Niobium detesmination by speotrophotometry L. M~, and Chlin Kuang-jung the method of differential PERIODICAL: Zhurnal analitLeheskoy khiniii, v. 17, nc.. 1, 1962~ 60-64 TEXT: Niobium in hydrochlDric acid medium was determined by differential spectrophotometry. AccordiT43 to published data, niobium in concentrated hydrochloric acid forms the -,ompound H[Nt(OH) 2Cl 41' whose absorption maxim-am "lies at 281 mp~ S'De,.trophotometric studies showed that real hydrochloric acid solution:3 of niobium are prepared witb difficulty, and almost impossibly in the P:7e3ence of tantalum. To prepare real niobium hydro3hloric acid solutionn,, a weighed portion of pure Nb 205 was deccmposed with potassium pyro-sulfate. The cold melt was dissolved in tartaric acid solution. and -the solution mix3d with concentrated hydro- -~hloric a-_id. The light absorption of this hydrochloric acid solution was measured with an 0-4 (SF-4.) spectrophotometer, Complex niobiu.m chloride, Card 1/4  Niobium determination by the... S/075/62/017/001/001/003 B106/BIOI H[Nb(OH) Cl was formed with high chlorine ion concentration in acid % 2 41' riedium, Maximum optical dersity of the solutions of the compl;tx is attained at 281 m)k in 11 N E.Cl, or in 4 N HU - 1, N LiOl, or ,0 N HC1 + 9 N Li~'71. Tartaxi-, acid and small amounts of sulfa-,e ions do not affect the light absorrtion. The solutions of the complex are stable for a practically unlimited. period, and follow Beer's law in the range of 0,88-10 r of Nb205/ml, The apparent molar absorption coeff..oient has -the value of 9000. Irct., molybdenum, titanium (and,, to a ama'll extent, also tantalum) distvrb the niobium determination descr:1bed. Small amounts of titanium (Nb205 : TiO 2 - 14 1) and iron (Nb205 Fe203' 4 6 as well as tantalum up to a. ratio Nb205 Ta205 ~ 1 - 1,5, do not affe'et the accuracy of determinatic,n~ Ziroonium, tungsten, and rare earths have almost no effect on the delermination. The niobium determinat%on by differential spectrophotOME-try was, in principle, carried out aocording to published data (Refs. 1. 3: see below; R-3f. 4: Dobkina, B. 11. Ila Ily-utir. a, T M, , ZELvodsk . I abo rat oriy a .?A-, 1336 (t958) ; Re f. 1~ Hiskey C P , Soung J- Anal. Chem, 22, 1196 (1951)) The Nb 0 2 Card 4  5/075/62/0', 7/001 /00 1/003 Niobium determination by the... B106/B10I on--. entration in the solution to te analyzed was 0.372-0.620 mg/25 ml. The method was used for determining niob*.,*um in three alloys wi'l-h a major amount of nioblum, 3-30 ~6 tantalum, and rainor amounts of titfLn:.um and i4ron. The weighed portion of alloy was diasolved in an HF 4 H 2s0 4 mixture, The solution was fumed off 2-3 times with sulfuric aoid, and the residue calcined at 800-9000C, The resu'.ting oxides were deconposed with potassium pyro-sulfate. After cooling. the melt was di.-isolved in 20 % tartaric acid, and mixed vith ooncentratod hydrochloric aci& An aliquot part of this solution was diluted with 10 N HC1 and 2 % tartaric acid, and then measured by differential spectrophotometry. The standard solution was prepared in a.,-imilar way; J-t contained 0,372-0.31112 mg of Nb2 05/25 ml. The niobium ocntent of the sample was determined from a calibration curve, and calculated from the formula C x - C0 + FI) (Cx niobium concentration in the solution to be analyzed; Cc, niobium concentra- tion in the standard soluticn; F - &C/D; AC = C 1 - C2). The results were compared with results of gravimetric determinations., The differential method is not superior in accuracy to the gravimetric method but reduces Card 3/4  ALIMARIN I.P.1 PUZDREMCIVII I.V.1 SBMYJ,WVA, 04. Prepars.tion of sodium cerium perlocla-te. Vest. Moo k.un.Sea-.2 s Milme 3.7 noa2a4l-62 Mr-Ap, 162o . (bMU 3-5:4) 2o Kafedra analiticheakoy kbilail, Moakovskogo universiteta. (Geriuasalte) (Petanium, periodates) .:4 .~ k  KLIMAIRIN, I.P.; ZOLOTOV, Yu,A. Nomencloture of extraction. Zhur.anal.khiin. 17 tio.2:263-,)66 Ar-Ap '62. (MIRA 15:4) 1. Institut geokhim-.Li i analitich-eskoy khimii imeni V.I.Vernadskogo AN SSSR, Moskva. (Extraction (Chemistry)--Nomencloture)  LIWIN, I..P.1 PE1RUKHIN, O.M.; WLOTOV, Yu.A. Extractibi1ity on Inner complex compounds as dependent on the pH of the aqueous phase. Minima-on the extraction curves. Zhur.- anal.khim. 17 no-5:544-550 Ag 162. (MIRA 16:3) l.1V.I.V,3rna4skiy Institute of Geochemistry and Analytical Cheniatry Academy of Sciences, U.S.S,tts M0300w. (Chelates) tExtraction (Chemistry)) (Hydrogen-ion concentration) t  S/075/62/017/-005/004/007 1033/1233 AUTHORS: Golovina, A.P.,!~~ ~imarin, I.P,j Bo7,hevoll:novt Yee A* and Aga8yanq L#B, TITLE: Datiscine - a newfluorimetric reagent for 7.irconium PERIODICAL: 9hurnal analiticheskoy khimiif v.17, no. 15, 1962t 591-594 TEXT: Datiscine OOJ92~ - tetraoxyflavone glucoside) produces with a number of cations soluble compounds which fluo- cresce upon irradiation with ultraviolet rays. In the case o:r 7,r maximal fluore--cme is observed in a 6 N HM medium at 520 mm upon irradiation at 386 mpe A 100 fold excess of reagent is permissible. Intensity 6f fluorescence.reaches a constant value Uard 1/3  S/U75/62/UI7/VO5/OU4/UO7 Datiscine - a new .... 1033/1233 after 15-20 min. It decreases with increase of ethanol concent- ration. Intensity is p:~oportional to Zr concentration in the ran6,e of 0.005 - 3 iLl. This makes datiscine a most sensitive reagent for 7,r. in tne 1-5 - 6 N HM acidity range there is no interference from any ~=ount of Dig and 7,nt 100,000-fold excess of Al and 100-fold excesses of Ag, Cd, Mn(II), GukU), Fb, kig(U)t Be, yokll), In, Cr(III), Fekll), Tp%tY)j Y(V)v Hi(II), Nb~V)q Wjvi)q-f~ U(VI)j VekIII), and La. In 6N HCt, 10-fold excesses of Fe(III), bio(VI), Ti(VI), Sb(V), Th and Ua do not interefere. This method was used for determination of Zr in aluminum and magnesium alloys. There are 2 figures and 4 tables. Card 2/3  S/075/6Z/017/OC)5/004/007 1033/1233 Datiscine - a new... ASSWUTION: Moskovskxy gosiadaretvenny universitet in. M.Vq IMnOBOVIIi VeasoyuzW nwichno- iseledovatel'skiy institut VAWcheuId)di reaktivov i osobo chistykh kbirnichealdkh vealichestv (Mosocs State Univeraity in JI.V, Lomonosov and A144nion Scientific Restitarch Institut of Chemical RetWente mid High-Purity Chemical Substances) Moscow SUBUTUDs June 28, 1961 Card 3/3  B/075/62/017/0061'003/004 1.032/1230 I.AUTliORS: Alinizvr1n, I.P., Puzdrenkovet, I*V*',' amd. ,TITLS: Purpuro-allin as a reagent for Vie spectrophotometric determination of zirconium. PERIODICAL: Zhurnal analiticheskoy lchimif,'v.17, no.6, 1962, 700-703 -LL TEXT: The absorption cpectra of solutions of p rpurogallin in aqueous dioNan &L variour, p1l'sare. given... K- of purpuroUcllin dissoc har, bc-en determined, *at t he 'LoAG utrcnC,;th of 0,1; pK wa13 f 0'Und to b:~--'~. 6.35 t 0.25. It. was foiuid ',h&t- Rurpurogallin gives colored complex compoundo with beryllium, SiLllium, indium, titanium, zirconium, scan- rare earth elemeat3. With zirconium,purpurogallin gives a dium and icomplex compound 4%-Ihat ic so3..uble in an acid medium and has eai aboorp- Lqard  3/075/6 2*/0 17 /006/003/004- 1032/1232 Purpurogii1lin ar 'a rea,~;ent ... tion maximum at 330 iT , wi a an apparent t;:tinction coefficient of 33000 -- '54000. A inoth:oLl har, been i.,orked out for the determina-tion of zirconium at concentr&tions as low a-- 0.09 9.1ml, in the presence of iron &t i conreatraLion notp exceeding 50 times that of nirconium. There are 5 figures and 1 t-nble. The English language rrfer&_,.ccs read: Evans, T.W., Dehnq W.M.t Jour. Awer, Soc. 52, 36,17 (1930). RLman'o Rao, D.V., Gvva Sirkar, B.S., Jour. and Proc. Instn. Chemists 28., 238 (1956). Wannagat, U., Bull. Soc. chim. France ~, 307 (1954). Tchakirian, Ar., D&-,.rillard, P., Compt. rend". M, 256, 1112 (1951). Bevillard, P., Mikrochi-m. 11, 209 (1952). Connick, R.E., McVey, W.H*j Jour. Incr. Chem. Soc. J1, 3~82 (1949). Gonnick, R.Bo, Reast W*Hf, ,Jour. Amt. -r. Chem. Soc. I.C., Edwardst J"W.p .U,1171 (1951). Milner, G.1 tuialyst Ii2, 86 (1960). 1 ASSOCIATION: Nodkovskiy gosudarstvenny universitet ime M.V. LomonOBova MV. Lonionosov Moscow State University): 1 -Card 2/3  5/075/62/OiT/0061003/004 1032/1232 Puipurogallin as areagento.. SMDIITT3D: JU17 3t 1961 Card 3/' 3 -000 a~ MR IT  ALIMARIN I.P.; ZOLOTIOV, ~d.A**-;-%-mmWWNJ' O.M. "Separation of heally-metedis" A.K,De, Reviewed by I.P.Mimarin, IU.A.Zolotovp O.M.Petrukhin. lxur.anal.kbim. 17 no.6s772 S 162. (MIRA 3.6si) (Metals-4nalysis) (Do, A.K.)  ........... LLDARIN, I.P.; LASTOVSKV, N lAernational Chemistry, Zhur,atal, khiuo, i7 no.W751.-776 5"62. (MMA 16si) (CheWLstry,, Ana3,vtical-Congresses)  S /o75/ 6 2/0 17/ 008/004/004 E071/El-35 AUTHOHSs Fadeyeva, V.X.j and Alimarin, I.P. TITIE.- Use of chlorophosphonazo III for the photometric determination of titanium, zirconium, thorium and scandium PERIODICAL: Zhurnal analiticheskoy khimii, V-17, 110.8, 1962' 1020-1023 TEXTx Some results Df a systematic study of propertiLes of solutions of chlorophosphonazo III ~2,7-bis-(4-chloro-2- phosphonbeiizolazo)-1,6-dioxynaphthalene-3 '6-disulphoacid] and its compounds with thorium, zirconium, titanium and scandium are reported. The molar extinction coefficieftt of solutions of Th, Zr, Ti and Sc compounds at 690 mp are, res'pectively: 43,100; 33,000; 10,800; 12,500; and the apparent equilibrium constant8 Of the .complex compounds are: "Th = 13.9; pK Zr = 13.4; PKTi - 5.7; PK Sc =6.9. A high stability of the complek.compounds pet-mits the determination of the above, elements in the presence of sulphates, Card 1/2  Use of chlorophosphonazo ill for ... 8/075/62/017/006/004/0U4 E071/EI35 phosphates, oxalates and other interfering ions. The reagent i~, most selective in respect oX thorium and zirconium; tile prf,senco of di- and trivalent elements has no practical interference. Of importance is tile determination of scand*um on the background of zirconium, titanium, ixon and aluminium if'these are bound with tartaric acid. Tile determination of thorium and zirconium can be done either by the usual photometric method or by the spectro- photometric titration method. Aqueous solutions of compounds.of thorium, zirconium, tiianium and scandium with the reagent conform to Beer's law up to concentrations of 1-1.2 jig/m~ of Zr, -ii and Sc, and 2 pg/m~ of Th. There are 5 figures and 2 tables. ASSOCIMON: Moskovskiy gosudarstvennyy universitet im. %II.V. LomonoS-Dva (Moscow State University imeni N.V.- tomonosov) SUBMITTED: March 13, 1962 Card 2/2  S/075/62 /OW009/003/oo6 E071/E436 AUTIJORS: Alimarin, Makarovat Save TITLE: Separation or small amounts of tantalum from niobium by the extraction of tetraphenylarsonium fluoro- tantalate PERIODICAL: Zhurnal analiticheskoy khimii, Y-17, no.9, 1962, 1072-1075 TEXT. The use of totraphenylarsoniurfi chloride for separating ~3mall quantities of tantalum from n'iobium, titanium and zirconium is described. The efficiency of extraction -was controlled using radioactive isotopes of-182Ta, S)5Nb and 95Zr. 71he dependence of the degree of extraction of tantalum with e~loroform on the concontration of totraphenylarsonium chloride, s6dium fluoride and acidity'of the solution was investigated. It was established that tantalum can be quantitatively oxtracted (98 to 100%), with an excess of the reagent within a wide range'of acidity in sulphuric as well as hydkochloric acid. An Insignificant extraction of niobium takes place only from sulphuric acid solutions, The separa~tion can be successfully tard 1/2  Ewa samaeft's" S/P75/62/017/009/003/oo6 Se I paration of small E071/E43#1 carried Out at a ratio Of,tantalum to nioblum of 1:100. Tantalum can be re-extracted from the organic phas6 by a single shaking with a 2% solution of (NH4)P-C204.,.,The method can also be used for the separatAon of tantalum from zirconium and titanium. There are 4 figures and 3 tables. ASSOCIATION: Moskovskiy Sasudarstvennyy universitet im. M.V.Lomonosd,ra, (Moscow'State University imieni M.V.Lomonoso,r) SUBMITTED: May 23, 196,z Card 2/2  S/032/62/028/002/OC,4/037 B1O1/B11O AUTHORSi Stancheva, St., Alimarin, 1. P., and Taintsevich, Ye. P. TITLE: Separation of indium from zinc in solutions containing sulfate ions, by means of ion exchange PERIODICAL: Zavodskaya laboratoriya, v. 28, no. 2, 19,62, 156 -- 158 TEXT: The behavior of In on ion exchange resins was studied. The solutions investigated also contained sulfates of Li, Na, K, NH 41 Mg, and. free H2SO4- For cationites it was foui.-id that In sorption on the resin decreased with increasing concentration of sulfate ions, and the In remained completely dissolved at a certain ooncentration. Anionites sorbed the In completely at sufficiently high sulfate ion concentration. In 0-1 - 7 M 31 so In 2 41 was nDt sorbed either by oationites or by anionites. On the basis of these results, a method was elaborated for separating In from Zn. Indium and zinc salts (ratio In:Zn - 1000 or 10000) in solutions containing 0.5 M (NH 4)2 .904were separated by an 3A3-1OTr(EDE-1OP) anionite. Tho solution Card 1/3  S/032/62/028/002/004/037 Separation of indium from zinc... B101/B110 was adjusted to pH %9 by means of NH 3' No precipitate fell out owing to low In concentration. The solution was then passed through the column at a rate of 3 ml/min. Zn was eluted by a 0.5 M solution of (NH,,)2SO4 + NH31 and determined either complexonometricaily (with eriochrome black T as indicator) or gravimetrically as zinc anthranilate. In was skated by means of HNO3 and determined complexonometrically (pyridyl-(2-azo-4)-resorain as indicator). At a ratio In:Zn - 1:1000, the values for Zn were about 4% low since the resin retained some Zn. In acid solution (0,.35 M OIR 4)2SO4 + 0.01 M H2 so 4), solutions of Zn and In (ratio Zn:In - 1:1000 or 1:10,000) may be separated by a1AY-2 (XU-2) cationite. In remains as complex mnion in solution and is titrated complexonometrically. Zn can be eluted with 2 N HCl and, after removal of H01, it can be determined colorimetrically by dithizon. The Zn and In content found agreed with the amounts of Zn and In added to the solution. There aro 4 tables and 6 referenceB: 5 Soviet and 1 non-Soviet. The reference to the English-languago publication reads as followst Kuang Lu Cheng, Anal. Chem., 27,,10, 1582 (1955)- Card 2/3  S/032/62/028/002/004/037 Separation of indium from zilic... B101/3110 ASSOCIATION: Moskovskiy gosudarstvennyy universitet (Moscow State University); Kiimiko-tekhnologicheakiy institut g. Sofiya (Sofia Institute of Chemical Technoloey) V/ Card 3/3  ZOLOTOV, Yu.A. - Extraction in chsm~cal analysis. Zav.1ab. 28 moslIsI2.85-1286 162. MU 15 0-1) (Extraction (Chemistr'y)) (Chemistry, Analytical)  ALIMARIN, I.P.; SUDAKOI[t F.P.; GOLOVKIN, B.G. Use of N-benzoylphenylhydroxylnmine in analytical chendstry. Usp.khim. 31 no.8:989-1003 Ag '62. (MIRA 15:8) 1. Moskovskiy gasudaratyennyy universitet imeni Lomonvaova, khImi- cheakiy fakulltet. (Hydro)qlamine) (Chemistry, Analytical,', 4  ALI'Mwt-T..F-. OW Logorodakiy yal.d.3); FAUMAp V.I. [Fadayevap V.I.] AMOSCovp Rly valed,a) Use of aromatic, p4onphonic acids for determining rare elements. Mto chimica Hung 12 no.2:171-182 162. 1. Institut geokbrlviai i analitielibakoy khirdi Akad.riauk WM.  ALIMARINS I.Pe -w= -- Conference of the Bw-eau of the International Astronautical Federation (ILF), V(wt.AN SSSR 32 w.8:95-96 Ag 162. OffEW 15z8) 1. Chlen-korreaponaent AN SM. C,Aotronautics-Congresses)  ALIMARIN, I.P.- International Symp)slum on Analytical Chemistry. , *Vest.AN S-SSR 32 no.8:96-97 Ag 1Q. (MIRA 15:8) 1e Chlen-korreoponloixt AN SSSR. ((%emistry,, AnEaytical-Congresses)  ALIM&RI-N, I. P., dr. Z~ "Modern Problems in the Determination of Trace Elements in hire Compounds," Institute of Geochemistry and Anslytic2l Chemiutry, Moscow, USSR 19th International Congress of Pure and Applied Chemistry/Re.-search on Adhensior%/Orgenometallic Compounds/Magnatic Resonance and Spootral Techniques. 10-17 July 1963  VINOGRADOVA, Ye.N.; GALLEY, Z.A.; FINOGENOVA, Z.M.; ALVAIUN, I,P.., prof., otv. red.; KOROBTSOVA, B.A., red.; CHISTYAKOVA, K.S.J. tekhn. red. (Methods of polarDgraphic and amperometric analysis) Meiody poliarograficheskogo i amperometrichat3kogo analiza. Moskira, Izd-vo Mosk. univ.) 1963. 298 p. (KERA 161l:!) 1. Chlen-korrespandent AN SSSR (for Alimarin). (Polarograpby) (Coi-Auctovetric analysis)  ALIMARIN, I.P.; GALIAT, Z.h.; SHEINA, N.M.1 RODIONOVA, T.V. Current-voltage characteristics of N-benzoylphenylhydrcnirlamine solutions. Izv.AN SSSR.Otd.khim.ni)uk no.3t567-569 Mr 103. (MRh 16:4) 1. Moskovskiy gcosudarstvennyy universitet im. M.V.Lomonomova. (Benzohydraxamic acid) (Reduction, Electrolyt!~c)  S/075/63/018/002/009/010 E075/E436 ~o 1A AUTHORS: Alimarin, I.P., Ilan Iisi-I TITLE: Extractive- spectrophotometric determination of niobium with the aid of lumogallion PERIODICAL: Zhurnal analiticheskoy khimii, v.18, no.1, 1963, 82-87 TEXT: The possibility of' using lumogallion 0 1.% for the extractive-spectraphotometric determination of Nb in the presence of Ta, Ti and Z.r was investigated as previous mcithods have only a limited use. An Intense red coloured compound i*i formed between. Nb and lumogallion. It forms most readily in 0,.!i to 2 0 N 112S04. The maximum optical density is reached at N~:lumogallion = 1:1. The optical density is decreased strongly by oxalic acid and loss )strongly by citric acid. Tartgric acid has a negligible effect. For Nb concentration.,% of 10-o to Card 1/2  S/075/63/oi8/m/009/010 Extractive-spectrophotomatric ... E075/E436 10-4 mol/litre the optical density conforms to Beer's lair and the formed compound can be utied for the photometric determination of Nb. The mean value of oquilibrium constant for the formation of Nb- lumogallion complex is 5.6. The lumogallion acid dissociation constants aj~e pKj = 5.6 and pK2 = 7-15- Zr also forms a coloured complex with lumogallion and interferes in the determination of.14b, but the Zr complex can be decomposed. by adding complexon III. The Nb complex can be eXtiacted from -2 N 112SO4 with n-butyl alcohol, Zr and Ti remaining in tho aqueous phase. Ta does-not Sive a coloured complex with lumogallion blit decreases the colour of the Nb-complex at concentrations larger than 3.0 mg/25 MI. There are 8 figures and 3 tables- ASSOCIATION: Moskovskiy gasudarstvennyy universitet im. M.V.Lomonos,o,%ra (Moscow State University imeni M.V.Lomonoso,%r) SUBMITTED: June 21, 196a Card 2/2  ALIMARTI, I,,P -1 1 SI I-ij ~ \1 . I _; KTIAI -.1 [Htn Ils' . p I Spec trophotometric determination c?f' P.-Iobium and tantalun by means of Zhur. anal. khfxt. A no..':382-188 F 163. (MIRA 17, 10) 2. LomonoFov State UniverFitv,- VOSCOW.  AL324ARIN I P - GOLOVINA, A.P.1 KEZ11UTIN, Yu. M. _::=~ OF Spectrophotometric study of the reaction of thorlwn with datiseetin. Vast. Ncrok. um. Ser. 2: Kbim. 18 no.3:66-69 Yj-J9 163. (MIRA l6s6:) 1. Kafedra anal-iticheskoy khlnii Moskovskogo universitetit. (Thorium compounds) (1hitiseetin) (Spectrophotomijtr7)  ALIMARIN, I.P.; BDRZENKOVAt N.P.; SHMATKO, R.14 ...... -, - . - Hydroxamic acids as analytical reagents. Report MoAt Spectrophotometric study of the reactions of titanium. with benzohydrox,amic acid. Zhur. anal. khim. 18 110-31 342-347 Mr163. (MrRA 17-- 5) ., ~ 1. Moskovskiy gosudarstvennyy universitet imeni Lomonosoira. f  I - I '., . ) - , , .1 ...... T M . I I .. ~ 119 -, t. ~ ,I "" U."J, -log , , . . " ' I urIq)OsI= Fst-,r:.ea. I. j -akhtr expert -n ui Uv~ ~ or. -, Revicr-red lay !..~ f-:iraT,,n, 7~e~~i Dlur,. ki-_*ri. 18 no.3XA.6 YrIO. (mut;,. r,5,11  Alimar in V.I. jaS _; Photsmatric methGd for determining scandium with chloropkiosphonaz6-111 in wolframite. Vest.Mosk. un. Ser.2-. Khim. 18 no,,/+:67-69 Tl-Ag 163. (MIRI, 16:9) 1. Wedra analiticheskay khimil Moskovokogs univarsiteta. (Scandiun-Analysis) (Wolframite-An&lysis) (Photometry-)    1-63 1 h2h 10CWtM Nit$ AP300375' Gibalo, LIM0 I A, 1 TITLM~ artiin dSAvit1**s-'1Qj SOUROM's zhurral analiti6bea TOPIC TAGSt dithiocarboni ~a ABSTRAM a luthors varried' (ra (NaPrIM) &=onium ~h641a~id dinediihiocarbaminate myph Pmos4 6f the study was' f6 oolaee.;. The niobium we's prp .ci! reagents, in a, wide range of 1* that nilobilum,19~ quantitat1*4 acid bu 4-5) and a stroi~alyli! i Bed only in a weakly aci~j "s , . 1 preolpitateniobium. The~~it explained by their differed" A purpostlep does not.decompose', 1/2! Card )/BDS.' JM10   ALIHARIN,j J~.._(.Moskva) Ultrapure substrimPes. Priroda 52, no.9s27-31 163. (14IRA 16:11) 1. Chlon-korresi-r-ozidentAN SSSR.  L 16271.�l W(q)/FATjjz)/ _..-B/(0/63/14q/OO6/O15/Q 27 AFFTC/Ma 4D A Gi 06 1.. r the Academy- of Soii' VMCR: Of Ukees USSR Mi cojrrt and- P, LDavaaor 19 rro Extraction or nidbid oearbamte Akademiya mauk SS.M*~ 63 6 PMXODICAL: Wklaidy.,~ V. l49, no.. 6 ig 132 -.~327- TM t Deriva Ves ol cArbamLc-:aaid_~&re_va1uable. analytic i-eagents to rare elements., buti. aside-,from (Na, _- ='I! -they have -sciftni diethy3.dittiocarbamtP t of th not been; sufficienta$. investiga f4i e less well-known derivatives of this kind is amtonium py:.tTojjdjnedithI~Q~qxbaMte (M4 = PD3!C) ~, a re4-ent that. is more, stable in aqueous solutions th4n:V4,. -,. DDTC. It has-been used for the Ifivimetric determination of niobitm and its separation-from: tantalum by the precipttation method. The authors were the first_to-in4,~Istig%te the.conditions of the quantitAitive precipi- tation- of - niobium.by 1% the extraction- of the: resulting com-pound by PDTC ap.4 different aqueously insoluble- organic solvent' of s. - Experii=ts. -with diffew-ent.amounts VB205 --(?-36 z g)__ih&4eAthat iiobibl lidiaedithi-0- carbamte,__(Nb IVM) -is quaeti la pyrro tatiVay precipitated anly from.taitirate and oxalate solutions In the fo:m of -a white residue ty -20-fold e=606 of reagents -in the presence of acetArbe buffer at. pH 2 4-5. In the extraction of ijbI Imc chlDroform proved to te the boat, solvents. The relati6aship betwecin extracti6v'L by-chloroform and acidity of', solutioa- is established. There is 1 figure 6 ASSOCIATION: Moskovsldy gosudasrst,~Fennyy*universitet im. M. V. Lomonosovii (moscow Card 1A State W.Versity ix6epi M. V. Lomonsov) SUBMITTED: January 22,, 1963