SOV/2o..123-5-21/5o A Morphological Description of the Microbe, Pr4ri.QAJon of the "Jens and Oceans for microbiology and for the purpoue of investigating and indicating the presence of Oceanic Currents. There are 1 figure, 1 table, and 10 Soviet references. ASSOCIATION: Institut mikrobiologii Akademii nauk SSSR (Institute of Microbiology of the Academy of Sciences, USSR) PRESENTED: May 26, 1958, by A. 1. Oparin, Academician SUBMITTED: May 269 1958 Card 2/2  IMS-1, Annt(?jAT-Tqrssye IMS SKIT, A.A., otv.red. LITVINOvs CA** XOSXVICMA, I.I., tekhn.red. (Kerins microbiology (deep-sea microbiology)] Norsksia mikro- biologile (glubokovoduaia). Koskva, Isd-vo Akad.n~iak SSSR, 1959. 451 P. (KIRA 12:3) 1. Chlen-korrespondent'Akademli nauk SSSR (for Iushenstakly). (Marine biology)  Basic trends in research carried out In the laboratory of electron microscopy of the Department of Biological Sciences of the AcadezV of Sciences of the U.S.S.R. Ixv.AN SSSR.Ser. biol. no*3:451-457 MY-Je '59. (HIR& 12:9) 1. laboratoriya slaktronnoy mikrookopii Akademli nauk SSM. (UNTROM HICR=OPY) (BIOLOGICAL FYMMH) 7r ''  3(9) SOV/50-59-5-3/22 AUTHOR: Kriss, A. Ye. TITLEi Microbiological Method for the Indication of Hydrological Phenomena in Seas and Oceans (Hikrobiolugichaskiy meted indikatsii gidrologicheskikh yavleniy v moryakh i okeanakh) PERIODICAL: Meteorologiya i gidrologiya, 1959, Nr 5, pp 18 - 24 (USSR) ABSTUCT: Card 1/4 With reference to the palers (Refs 112,3,13,14)t it is stated that an increase in the population of microbes in the zone of convergence of nonuniform water masses is not only caused by the high temperature gradient occurring at the intersection point of warm and cold currents but also by the salt-content gradients due to a mixing of waters from different oriGins. The observed increase in the biomass of microbes in the zone of the so-called jump of temperature may also serve as an example. As the temper- ature gradients and the changes in the salt content are very great in those places where anomalies occur in the quantitative distribution of micro-organisms, an attempt is made here to clarify the sensitivity of the bacteriological method for the indication of "disturbancos" in hydrologically uniform water  Microbiological Uethod for the Indictition of ilydroloiical :;OV/5o-59-5-3/22 Phenomenit in Seas and Oceans maesesp in order to be able to use this method for the determina- tion of cases with poor heterogeneity in the structure of sca or ocean water. An investi(,ration of this kind could be -carried out by the author (Ref 7) on the drifting scientific station "3P-3" in the area of We north pole. This investigation, and the investigations carried out by Butkovich (Itef 3) much more to tho noutho in the Central Arctic, offered a possibility of ascertain- ing that even fine features in the otratification of water masses become evident with help of the mothod of determining the anomalies in the quantitative distribution of micro-organisms. Besides, the micro-organisms can aloo be used as hydrological indicators in another direction. Thanks to the development of a method for the direct microscopic investigation of the popula- tion of microbes in scas and ocoann, micro-organisms have been detected which cannot be j;ro-rn in the laboratory. Well re- cognizable forms of microbes rere fouiLd which are peculiar to certain compositions of water. Therefore, these micro-organinme can serve as indicators for the origin of water masses. The in- Card 2/4 vestigations carried out in the deep-water areas of the Black  Ificrobiological Method for the Indication of Hydrological SOV/50-59-5-3/22 Phenomena in Seas and Oceans Sea showed that-the whole hydrogen-sulphide zone of the Black Sea, besides other micro-organioms, also producee some peculiar thread-shaped kinds (Ref 10). They are the ori-ginal population of the hydrogen-sulphide zone. They get into the higher layers of the Black Sea by the water exchange between the hydrogen- sulphide and the oxygen zonos. Due to a long-lasting vertical circulation caused by the intense cooling of suiface waters, the quantity of water coming from the hydrogen-sulphide zone with its characteristic microbes in so large that the density of the microbe population in depths of 125 and 150 m is some dozens of times bigger in winter than in summer. How great ft imporbuioh of the thread-shaped organiems as indicators for hydrological in- ventigation iso can be seen from the fact that with their help a "strange" water was ascertained in the hydrogen-oulphide zone of the Black Sea. This water has another origin than the other water masseo in this zone, which is also confirmed by observa- Card 3/4 tions made by Kitkin and others. The causes are not clear yet.  Microbiological Method for the Indication of Hydrological SOV/50-59-5-3/22 Phenomena in Seas and Ocoans There are 3 figurec, 1 table, and 14 refereaces, 13 of which are Soviet. Card 4/4  "TSISY A. ; A'ID MicroorFnnimE at an indic-:tlor of hydrologie phonomona in the ceaz, and, oceans. r. 1"2 ANALELF RC"~N0-SOV'L:7IC',. S'-RIA PIOLOGIE (Aca6cm.1a Pepublicli Populare Rominc. Institual de Studli Romino-Sovictic BucureEti, Rwnania Vol- 13, no. 2, April/June 1959 Monthly IiEt of Easter European Accession Index (EEAI), LC v01. 8, No. 11 Novmter 195? 'Uncl.  - __ __ --- - --- - - - - :~f - - - __ __ - - --- __ - ____ ____ --- __ XaISS, A.Te.; KARKIANOTICH, Te.K. 'Utilization of humus contained In sea water by micro-organisms. Kikrobiologita 28 uo.3t399-406 Vq-J9 159. WBA 1313) 1. Institut m1kroblologil AN SSSR, Mookv&. I (GXA WAT]IR--BACTMOLOGT) (HUMS)  KRISS Anato4~ ~oktor biolog.nauk, laureat.Leninskoy premii; STAROSTINKOTA, KX, red.; SATCHIMKO, Te.T., takhn.red, [Kicrobas in the depths of the ooeansj Kikroby v oksanskikh glubinakh. Koskya, Isd-vo "Inanle," 1960. 39 p. (Yeasolugnoo obahchestvo po resprostrananiiu politichaskikh i nauchAykh snanlio Sar,8, Biologila i meditaina. no.24). (KIRA 14:1) (Karine vicrobiology)  I KRISS I A,Ye. lability of struatural elements of phage corpuscles. Ixr. AN SSSR. $or. biol. n0-38443-"5 My4e 160, (MIRA 1317) 1. Institute of Microbiologyp Academy of Soiences of the U.S.S.R.p Moscow. (UGITHRIOPHAGS)  ~XMSS, A.Te.; ABYZOV, S.S.; LNBXMA, M.N.; XNMSTIIIA - , ---- T-.W,. 0 Geographical distribution organisms) throughout the 31"l 3-0 160, vater--microbiology) of the microbe population (haterotrophic ocean, Izv. AN 388R# Sero geogo no,5: (MrU 13: 10) (Sea  A.&. [Iris&., A. Ye.]; IARKUNOTICI, Z.H. [K&rkianovich. re. K.3 Utilization of the aquatic humue from osa water by macroarganisime Anklels biol 14 noelt544)2 Ja4tr ?60*  KRISS, I.Ye.1 HITSKEVICH# I.N.; MISHUSTIMAp I.Ye.; ABYZOV, S.S. ~Hydr*gical structure of the Atlantic Oceant 00 N02-Wgian and GreenlW Seas accoqdbW to microbiological data. Mijcrobiologiia 29 no.6W5;-887 N-D*1604i (MMA 14:1) 1. Institut mikrobiologii AN SSRR- 4;AMG OCFAN~WATM--MICROBIOLOGY) NORMIO. SU-WATEI--MCROBIOLOGY) ~Gwmakb su--wam-mcRoBioLoGY)  I ]MISS, 4#Te,, prof. . - --- - - 1--l- --- .. ..... Geography of marine micro-organisms. Prlroda 49 no. 12:92-95 D l6o. (KIRA 13;12) 1. Institut m1krobiologil Akademil nauk SSSR, Moskva. (Zoogeography) (Marine fauna)  14K fit !;,I[ T,i  - ---------- ---- - - lamsp A4Ye*;- MITSKEVICII,,- I.N.- - Distribution of filiiorm and cluster-like micro-organisms (Krassilnikoviae) in sea and ocean depths. Mikrobiologila 30 no.1:3-10-112 Ja-F 161. (MIRA 14:5) 1. Institut mikrobiologii. AN SSSR. (SEA WATER-MICROBIOLDGY)  KRMp Twegnaq at', microorganisms isolated from the sea. 30 no.5091-798 8-0-161. I. I~AtitUt Mikrobiologii 'At WR. G WIFIGATION) (Hi 9=kAft?M-CLL (SEA WATE&-id*BIOLOGY) Kikroidologlis, (M.14,12)  MMW., A. Ye. -W-- Usefulness of Raneen bathometero for taking vater samples from seas and oceans for microbiological rosearch. Hikrobiologiia 31 no,6tlO67-1075 M-D 262* (HIRA 1613) 1e Thatitut mikrobiologii AN SSSR* (MARM HICROBIOL4)GY-RESEARCH) (BATMEM)  ZEYTSOVA, E.V.; KRISS, A.Ye. Survival of marine micro-organisms (heterotrophs) during cultivation under laboratory conditiins. Dokl. AN SSSR 142 no.3:695-698 Ja 162. (MIRA 15:1) 1. Institut mekrobiologii ALI SSSR. Predstavleno akademikom A. 1. Oparinym. (SEA WATEII--MICROBIOLOGY) (BACTERIOLOGY--CULTU',IES AND CULTURE MEDIA)  Distribution of heterotrophic bacteria in the waters of the Pacific Ocean. Dokl. AN SSM 146 no.6*.1422-=5 0 162* (MIRA 15,10) L Predstavleno akademikom A.I. Onarinyme (Pacific Ocean-Bacteria)  Quantitative distribution of microbiological population In watt- column of the Pacific Ocean. Okoanologiia 3 no.W57-168 163. (VJRA 17s2)  ; MISHUSTIWA,, I.Ye.; MITSKEVICH, I.N.; ZENTSOVA, E.V.; HENETUTY, A.A.j akademikp oty. red.; GOLIDIN, M.I.v red.izd-vaj GUSEVA, A.P., tekhn. red.; KISELEVA, A.A.9 tekhn. red. [Microbial population of the Pacific Ocean; species and geographical distribution] Mikrobnoe naselenie mirovogo okeana; vidavoi sostav, geografichaskoe rasprostranenie. Moskva, Izd-vo "Nauka," 1964. 295 p. (MIRA 17:1)  KRISS, A. Ye. Distribution of unstable and stable forms of organic matter in the water mass of the world ocean, Mikroblologiia 32 no.lt 103-112 t63 (MIRA 1723) 1. Institut mikrobiologii AN 3SSR.  i - ` -, " * i, - ~~ ~ !I, , I'! , t P. I.i , . . . II IK;H--*'Ni',7-;K.Ff~ A.A.0 KV1,15 III, lilfu)v " 1%. , -rl' , *1 - 0 11 7 1, 141SHUSTIN, Yo.N.; ldWTFfh~FT!'YlH, 1"I-t. "I YJAh"I, ' .?,, a.-. i Srl., Boria Ikkovlevich Ellbert, 1890-1963; Pn obltuary. Mikrobliologiia 33 no.2078-379 Mr-Ap 164. (MIRA l7sl2)  , ---jTI3s, -- Oceardo microbiology; some general results of research in this field. Ckeanologiia 5 no.lt22-31 165. (YIRA 18W 1. Institut mikrobiologi-i AN SSSR.  'ACC NR, LD6036764 SOURCE CODEt UR/0020/66/171/001/0209/0211 W AUTHORS: Mitakovich, 1. N.; ORG: Institute of Microbiologyp Acadety of Sciences SSSR (Institut mikrobiologii Akademii nauk SSSR) TITLE:. The high-pressure tolerance of Pseudomonas ap.0 strain 8113p isolated from the bottom of a deep-sea depression in the Black Sea SOTIRCEs AN SSSR. Doklady., v. 171., no. 1. 1966,p 209-232 TOPIC TAGS.- microbiology, atmosphorio pressure, hydrostatic pressure, bacterial genetics ABSTRACTs The high-pressure tolerance of Psoudomonas sp, strain 8323, obtainod from a depth of 1900 meters in the Black Sea, was determined experimentally. Some oul turos in a modified Rana madi= and held in special glass flasks were placed in s;0011 cylinders filled with water and were subjected to various hydrostatic pressures for 2-3 days at 28-290; the rest were kept under the same conditions except at atmoo- pheric pressures With the aid of a Goryayev camera and an FM-57 nopholomatero the concentration and number of bacteria were determined. Results indicated that at pressures between 25 and 400 atmospheres bacterial growth exceeded growth a- phoria preasiwas At 600 atmospheres a repression of growth and reproduction Card 1/2 UDC: 576.8.095.12  ACC NRs AP6036764 occurred. Pressures vhich were favorable for reproduction also produced an in- crense in cell length as compared with that of the control grqup. This article was prouented by Academician A. A. Lashenetakiy on 18 April 1966, Orig. art. has: 1 table and I graph. SUB CODE: 06/ SUBM UTE s O4Apz-66/. ORIG MW: 003/ O`.M RV: . 002  KRI35, -CH.-KH.- - -- -- KRISS, CH. KH.: "Investigation of the xAnthogenates of certain met- als in connection with the purification of the solutions of zinc sulfate.'' Acad Sci Ukrainian SSR. Inst of General and Inorganic Chemistry. Kiev, 1956. (Dissertation for the.Dogree of Candidate in Chemical Sciences.) SO., Kniihnan Letopial No. 26, 1956  AID If r. yy5 A9 'al 1june LUPVTNESCENCE AND STIMULATED EMISSION OF KEODYNTIT:M- A C TWA T E D G LASS OUSSR) F eofilov, P. P. , A. M. Bonch-Bruyevich. V. V. Vargin, Ya. A. Imas, G. 0. Karapetyan, Ya--YR--KrJU, arid M. N. Tolstoy. IN: Akaderniya nauk SSSR. Izvestiya. Seriya fizicheskaya, v. 27, no. 4, Apr 1.963, 465-472. S/048/63/027/004/002/026 Studies of luminescence and induced emission of neodymium-doped glass ~ia-v,- bef-ri carried out, and optimum glas!; co-npos:tin~-i was rJF-lcrrr..ned. Glasses vvere developed which are superior to th,jee used by E. Snitzer. Absorption and luminescence spectra were obtained, and the dependence of lurn-.nescence on concentratinn v,,as induced WaS Observed both in glass fibers - icast,(~ in g'ass and in highly glass cylinders. The dependen--o (if lime ,ha.-arter-ist-cs and sp-ulral composition (if induced emission on numpmg enerEly 'was established. Thf- ~)rost)ects of application of the mater-al to practicall 11asers and to 'study Q f induced emission phenomena are discussed. JBB] Card 1/1  GALIFERIN, Ye.R., redaktor; GODUMCH, Y.F.; YXMAUOV, S.I., redaktor; Z42; KUNISA, S.L.; POPOV, I.A.; SHTZYN, B.B., redaktor; fW64,1 ,V., redaktor; VEYYMUD, L.B., takhnicheakiy redAktor. [Problems on radiobroadeasting installations] Zadachnik po radio- peradainshchim ustroistvam. Pod red. S.I.11vtianova i Z.R.Gallperina. Moskva, Goo. izd-vo lit-ry po voprosam eviazi I radio, 1951. 175 P. (Microfilm] WHA 7:12) (Radio-Problems. exercises, etc.)  Y%~ '% I -, - , ,T , 1 , At*-V-- - GOROBSYN, A.Ta.; XRISI- 1A 49. %~.Mh"Omw&. Physicochemicsi studies of solutions of acid an the solvent, UkrainAhImoZhure (CA 47 no.1617865 153) some alkpli acetates in acetic 15. 390-42 149. NLRA 5:6)  WwAW&4kmWft'm Womm" "d irs. C.W"- S. aw. ONk" Ichim, jj. ek", C.A. 43, OWS#.-Cmd.. Clow.) A M.. 9 .4 11110 omit Ilu-17W watbio Amwly'. '0.. ~ndm wKs. rassm III.W16.31 *1. 1:0 got thd Naltr-AIIII, *Yv- 9m, awl 12AP-ILZM% Ow the KOF-AlOre OYIACIII. Witble than fteM tW IwdM May be comidervi to caftial r"P XS'ILIM~'Q Ill- AN-IMI-IrW AS&,. A IWIWI, caffatift I W" apow to the Ommrw maw Cowl.: 01 - oqp/qk wbwt 6 ON v ty of the melt. IN The Viwv&4y al pwa Alth, p Is the amW cowl.. arki o. is tk4t fgrfwtW mi" cv*l- Ali top"4d hirmids relathis VbA"m is ow as'ectul vskm at obw mu"t emm. With th"Oft in Vol, was Icand appbmbk. 0, - 04 -- Al (w - wb" P4 a an exrww Maur ONW. for Ow Op"hum" Is thw malt" gate the , Z ch. Coli ohm md. 'W. i. dw., . U 'W. well Un WW A a MK;Z;)~ NOW On* that to !be Kik-Alfir, yam .,t thi c"ll" C"P of cows. ww cmMls"Nums Val.. Irm TRA to ltrj;j, t~xftwwwing re"m is 0 1,. xsr~m&-j Volts 04 ruse in value from 61.5 to $1.2, A. lAwiloo  WO/Chenistry Antlw" CQ*Mundis'.~~, Aug 45.1' AIMLVM CoWpoubda! "Physicochezical lnvesti~gntiov of corcen'tiat~,A'*-~oli~;,,' tions. X1. The System 9bT4R3*AlBr,-C'Br,,," YPYa. I I Goretb-eyn, Ye. Ye. YxIcs, Vib Of ~Ow' '~Dlns' zoM"- ffpst of Gerrr,-,:~! and Iroreanic Chemistr-yfj, AcA-d Sci *Zhur Obshch KhIm" Vol =, No 8~ PP 1387-1'492 Study of elec cond, viscosity, ap gr of system SbBr AISr 3-CBr4 at 85, 90, 95, 1060C for concna of 59-~04- Sb2r3 AIBr4 shoved that =x of elec cond occurs due to increase of viscosity with increase of --onen of SbRr 3*AlBr4. Proposed eq for dependence of the UM/Chemistry - Antimony Compounds Aug 51. (Contd) Pr0dwtcfr-^I eiec c=d nd viscosity on conca. Figh- est cor mol elec cond corresponds to cor el--c cond-~. or individual electrolyte.  MU/Chemistry - ZLectrleal conductivity; Jill 51 Arsenic Bromide an a SolTerrt "IT"stigation of Concentrated Solutions of SbBr3*AlBr3 in Arsenic Bromide " the Solvent," e. Ta. Gorenbeyn, Ye. Te. Kriss, Acad-Sci Ukral- alan SSR, Kiev "Zbur Piz Xhle Vol XXV, No 7, PP 791-797 Investigated elec cond, viscosity, sp gr of system contg electrolyte SbBr3 -AlB.r3 (in liquid form a conductor) and solvent AsDr3 (dielec). From elee cond at different temps from 60 to 1200C and vis- cosity at different temps from 80 to 1200C found tbat (a) elec cond increases vith higher conen 2o6T2o USSR/Chemistry Electrical Conductivity Jul 51 (Contd) and viscosity to max, then at high concus decreases with increase of conen; (b) highest corrected elec cond of system corresponds to that for individual 'electrolyte. SbBr -AlBr complex forms no cooqA vith AaBr3- F;;Zu Lted aependence of ancmlous W1 elec cond on diln.  'Ye. Yo Yhr r2 .ol IJSCRlr 0,,:, BlectrolytOs stry ~ h .,- oi,,tos in Arser-ic Trilrcudde 111,,vostjLtution of Concontrated ;0lutjons of 1"Jectr L. 111:P-TIP ye. yo. yXiss, ao a Solvent. SYstem ZnLr2.AI2',3r6 - ABLr3j" yo. Ya. Gore Kiev Vot Insto "Zhur FIZ nlid, Vol ~~Xvlf No 3t pp 30-351 Ihe sYstem Znl~r2.kliBr. iscorii-ty, and 0P wts in L " 2~2-i . investinc ted the elec condp v 11,.0o within tile concn rarlre data a 110, 120, 130, and Lasis -,if the AsBr at temrS Of 1C~Op Olae Cerieral relationships on the elec?rolyte. Fstablished s obtained. pA -~Jn29 I .  Groom usEa/ ~---42try P~iystcai Cheaistry Cam I Piv). U6 - ~,/30 Ua-zarun!i~o, 1-1-L. P., and Kriqs, Ye, Ye. Title I Isotopic N-exchange between ita mono- and diva-lent forms Periodical t UKr. khim. zhur. 21/3, 300-304, une 1955 Inst~tut,ion I -.qw~rirrentF 4vre conductr-d to deter'ne t~ie ir-oto-Ic exch-tng(I of Cu bet,"Cen homo- and heteregeneaUs iftedia. R-emats obtained are describeed in detail. ' R, I French aryJ 1 German (1914-1951). S Fight references: ~ USA, 3 ULO Tables. Acad. of Sc., UTr. SM, Inst. of Gen. and Inorg. Chem. S~Ibmit.t(-d July 3, 1954  ---SHEKA, KRISS.-Te.Te* Study of the formation of cobaltic xantbogenate. Zhur.neorg. kbia. I no.3:58&597 Kr 156. (WJA 9tIO) I* Laboratorlya khtell kosplekszWkh soyedinenty Instituta obahchey t neorganicheekoy khtsti Akademil nauk URSR. (Cobalt xanthates)  F - -I- . A - SHM, Z.A.9, IRISS, Tejo. %, -- I" Role of copper ion"ITUNIPF-removal of copper from zinc solutions using the xanihtta method. TSyst.met. 29 no.lit43-47 1 156. (MIMA 10 t 1) (Zinc-Ketallurgy) (Zanthic acid) (CobaltJ  SHMrA-,- Z.-PAq KHISS-- e-je I.-, ~ , -ImZ*r Determining tho solubility of xanthogermtes of certain beavy metals. Zhur. neorg, kh1m, 2 no.12:2619-2823 D 157. (MM llt2) 1. Inntitut obehohey i noorganichookoy khtaii AN USSR, Kiyev. (Solubility) (Xanthic acids)  T Z7 04. to i-"i .4 5 i -, i !: *.- 11.i - -.-.k " . A 1.00 At I 0 d Z9 Ile .10d .00 to -,.J Z;4.-' .1 1: 1- I H z A AI 11 lus, ,till S. 4A iN -3 Aff w 113 a Ji. z a 3 Bia's 3 '3 5t  AUTHORS: Sheka, Z.A. and Kri e_,_Ye_ SOV/136-58-10-11/27 TITLE: Reaction of Cobalt Salts with Potassium Xanthates (Vzaimode7stviye soley kobal'ta B ksantogenatom kaliya) PERIODICAL: Tsvetnyye Metally, 1958, vr 10, PP 53 - 5 (USSR) ABSTRACT: The authors comment on the views of I.A. Kakovskiy (Tsvetnyye Metally, 1958, Nr ?) on the processes occurring during the removal of cobalt from zinc-electrolysis solutions with the aid of potassium xanthate. They maintain that the method used by Kakovskiy to study the compusition and properties of xanthates of various metals is not applicable to cobalt xanthate; their more careful repetition of Kakovskiy's experiments showed (table) that the reaction of soluble cobalt salts with potassium xanthate is not the simple exchange assumed by Kakovskiy. They indicate that this author contradicted himself and based his conclusions on erroneous experime7ntation which also distorted his thermo-dynamic treatment of the subject. The authors refer to their own work (Refs 4, 9) which showed that copper can advantageously be replaced by their oxidising agents, in particular, hydrogen per- Card 1/2 oxide as used at the Zlektrotsink Works; they do not  SOV/136-58-10-11/2? Reaction of Cobalt Salts with Potassium Xanthates admit Kakovskiy's criticism of their views on the role of copper in the precipitation of cobalt. There are 1 table and 12 references, 5 of which are Soviet, 4 English, 1 French, 1 Italian and 1 German. Card 2/2  JbTyp Wall raktrefty I ko"Wrtoykh 0,7y.ljfv.,tlr T". 9 re 6,,1 the Orsletry of Boluttttki oM C- vify h*--wido. r. r 2) XIT*V, 229 P. zmta, slip Imeorted. 1,000 foplos Printed. loop. 14.9 Te.A. rialkov (Doo4cood' Oorrooponilng Xm"r, UkrsInIam, LU, Asad"7 of 3clemi4i FA. of PublIthIng NOW*# Ij. Tokrovskayal TOO, Id.t X.I. Uflmovs. TVPM41 This book Is intandod for restAroh selentiett, teethe" to 84"1f of hlgA4r Odweatioa am t"hnioal sebools, espinats. 04 -students of 6dransed shoaLstrY soortes. ConmA021 The *61106tion eantal"s 9 artielea whick roviro work a or 0"0"1 WA IMIZIMIN (*41MIAtrYs eveduated at tbo uAtItut 1, Wrointen Aosd*M at Salme**,on ol"trolytio sque"s MA momqueous solutions. the Ohe"Istri of &*MISS o- I- Wo. FiAlkov, TGA. study at Inorpals "Ildes an the ftola of isotope 1"ha"Re ANIOUGAS !~!~Avs and Mlo. grips. mat usthates sh" I.A. "isesbaste&I Anai"is at go the mmat& of vjojSStrlo,Frqpsrjj46 ~3 Apoetrapho"Notrto study at W,-. * - - iiiffity,birm Cowles yormation, laws It &.1 And of listal Dowe"do 199 I tIostrome%ow vors" at ftmisal an" vttjk tlat$ ATAUAMt UbruT or Opagms out ----------------  5M SOY/78-4-2-33/40 AUTHORS: Fialkov, Ya. A. (Deceased), Shaka, Z. A., Kriss, Ye. Ye. TITLE: On Cobalt Xanthogenate (0 ksantogenate koballta) PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 2l PP 472-477 (USSR) ABSTRACT: 'The Interaotion of potassium xanthogenate with cobalt sulfate in aqueous solutions, depending on the pH of the solution, was investigated. The transformation was determined by physloo- chemical and chemical analyses. Upon the interaction in a slightly alkaline medium a precipitate is formed which can be extracted by benzene. The formula of cobalt xanthogenate, re- crystallized from'benzene, is Co(C 2H5ocs 2)3 . After extraction of cobalt xanthogenate a black residue remains which is in- soluble in benzene and other organic solvents. The analysis of the residue showed' -34% cobalt and -18% sulfur. The black residue is a mixture of several compounds which are formed upon the interaction of cobalt ions with decomposition products of potassium xanthogenate. The interaction of the aqueous solutions Card 1/2 of potassium xanthogenate with cobalt sulfate is not a simple  On Cobalt Xanthogenate SOY/78-4-2-33/40 exchange reaction but is accompanied by secondary reactions. The optical density of the system cobalt sulfate - potassium xanthogenate was determined. At the same time the formation of the oompound:Co(C 2H5ocs 2)3 was determined* Xanthogenate decomposes quickly in acid solutions, at the name time the optical density decreases without the formation of a maximum of the curve composition - optical density. The decomposition velocity of xanthogenate rises with the increase of the con- centration of the acid and the increase of the duration of the interaction of the components. The results show that physico- chemical analyses of the system potassium-xanthogenate-cobalt salts in aqueous solutions give no satisfactory results because of secondary reactions, There are 3 figures, 2 tables, and 15 references, 8 of which are Soviet. SUBMITUD: December 12, 1957 Card 2/2  5(2) AUTHORSt SheYAg Z. A.$ Kries, Ye SOT/78-4-6-17/43 t.-IIII TITIXs On Compounds of the Chloride& of Lanthanum and Cerium With Ethyl Alcohol and Ketones (0 soyedineni akh khloridov lantans, i teeriya, a etilovym spirtom i ketonami~ PERIODICALt Zhurnal noorganioheakoy khimii,, 1959, Vol 4, Nr 8, PY 1809-1813 (USSR) ABSTRACTs No data are available in publications on the complex compounds of Coal with ethyl alcohol. For the lanthanum complex . 3 LaCI 3* 202H5OR is mentioned in reference 6. Since NdCI 3which has similar properties as LsC1 3 forms the complex NdCI 3* 302H5OH j the same was also aseumed for the lanthanum and cerium oomplexee. These complexes were produced for test purposes& Table I shown that their composition is LaCI 3*302H 5 on and CeCl 303C2H508 , These compounds are little stable and separate from alcohol already at room temperature and at longer standing, Table 2 shown the solubility of the chlorides of Card 1/2 lanthanum and cerium in ketones. The solubility was determined  On Compounds of the Chloride* of Lanthanum and SOY/78-4-8-17/43 Cerium With Ethyl Aloohol and Ketones by means of radioactive isotopes. The examination of the complex formation was carried out by measuring the dielectric soonetant,.The results for the system LaCl 3 - (CH 3)20 are shown in table 3 and figure 1. The reaction with other ketones in shown by figure 2 and table 4- One or two alcohol molecules o'61 the solvate shell*were substituted in the complexes Lacl 3# 30 2H5OH aooording to the chemical activity of the ketones. Benzoin and acetophenone react most energetically. 0901 3remote with ketones weaker than lanthanum salts. The energy of the ketones in not sufficient to substitute all three alcohol molecules. With pyridine (Fig 31 Table 5), howeverp compounds with a r&tio L&CI 3 : Py - I 1 2#7 could be determined which approximately corresponds to the composition L&C1 30 3PY 6 The determination of the dielectric constant made possible a comparative qualitative characteristics of the complex conpoUndso There are 3 figures, 5 tablesp and 9 referencest 3 of which are Soviet. SUBMITTEDs May 27, 1958 Card 2/2  5(2) 05865 AUTHORS: Sb*ka, Z.A.1 Uies, Yo. T** SOT/76-4-11-18/50 TITLE: On the Interaction Between Nitric laid and Tributyl Phosphate PF3IODICAL: Zhurnal neorganioheskoy khimii, 19590 Vol 49 Nr 11, pp 2505 - 2510 (USSR) ABSTRACT: The tributyl phosphate (TBPh) used for the extraction of lanthanides, and sotinides forms compounds when interacting with nitrio.aoid which have been investigated by several authors (Refe i-6),,,among them V,V. Fomin and Te.PsMayorovs, (Ref 5) who detected tho-formation of HNO TBPh and 3* 2HNO TSPh.- This complax,formation has hitherto been 31' investigate4,primarily on1he basis of the distribution of nitric said among the aqueous and nonaqueous phase. The authars'studied the complex formation directly in the non- aqueous ph"s by measuring the dielectric constant of a solution of HMO 3 - TBPh in carbon tetrachloride (Table 1). They measured isomolar series of HNO -TBPh and series with 3 varied additions of MO3* Data indioat* the formation of the Card 1/2  On the Interaction Botween,Nitric laid and Tributyl Phosphate 05865 SOV/78-4-11-18/50 compounds ENO3TBPh and 3HKO3 TBPh, furthermore another compound nHNO 36 TBPh with n> 3 which could not be detected under the present experimental conditions. The formation constants for 'ENOVTBPh and 39HO34 TBPh were calculated according to :the di'stribution of HNO3among the aqueous and the nonaqueous phass~(Table 3)0 Comparison of the experimental distribu'tioi curve of HNO with that calculated for the two complexes (fig 3) shown Nat the first complex compound predominates at concentrations of up to 4 molea/1 Of ENO 3 in water approximately, while the second one is formed not before higher oonoentrationj (at 9 moles/1 of HNO, approxi- mately) have been attained. Beyond the latter value, non- chemical dissolution of nitrio said takes place in the non- aqueous phase besides the formation of a still higher complex compound. There are 3 figures, 3 tables, and 14 references, 10 of which are Soviet. SUBMITTED: July 24, 1958  S/078/60/005/012/013/016 BO17/BO64 AUTHORS: Kriss, Ye. Ye.L Sheka, Z. A. TITLE: Extraction of Rare Earth Elements With Di- and Tributyl Phosphate PERIODICAL: Zhurnal neorganicheskoy khimii, 1960, Vol- 5, No. 12, pp. 2819-2823 TEXT: The distribution coefficients of nitrates of lanthanum,neodymium, yttrium, and ytterbium were determined in extractions with n-dibutyl phosphate and tributyl phosphate in dependence on the nitric acid concen- tration and the concentration of rare earths, and compared. Extractions were carried out at 20-210C in a shaking funnel for 25-30 minutes. Carbon tetrachloride was used as solvent for di- and tributyl phosphate. The rare earth content in the aqueous and organic phases was ditermPed 140, N 1 7, T 1 '166 V1 means of radioactive analyses with the isotopes La d , Elo 9 and Yb175. The distribution coefficients were found to decrease in the ex- traction with dibutyl phosphate when the nitric acid concentration and the concentration of nitrates of rare earths increased in the aqueous phase, Card 1/3  Extraction of Rare Earth Elements With Di- S/070/60/005/012/013/016 and Tributyl Phosphate B017/Bo64 whereas in the extraction with tributyl phosphate, when the concentration of nitrates of rare earths increased, the distribution coefficients were found to increase. Separation of rare earths at low acidity of the solu- tion is easier when tributyl phosphate is used. Tables give a good survey of the results obtained. Table I gives the results of the nitrate extrac- tions of some rare earths and of yttrium with one-molar solutions of tri- butyl phosphate and n-dibutyl phosphate in CCI 4 in dependence on the ni- tric acid concentration. Tables 2 and 3 show the distribution coefficients of nitrates of rare earths In solutions of tributyl phosphate and n-di- V/ butyl phosphate in CCI 4 in dependence on the concentration of the lan- thanidene nitrates Ln(NO 3) To compare the efficiency of extractions, Table 4 shows the results 9f* nitrate extractions of some rare earths with di- and tributyl phosphate, and with dioctyl phosphate. The varying effect of the nitric acid concentration upon the extraction of rare earths with dibutyl phosphate and tributyl phosphate in probably due to different stabilities of complex compounds of nitrates of rare earths with dibutyl phosphate and tributyl phosphate. The com lex compounds of -rare earths with dibutyl phosphate are assumed to be decomposable a higher nitric acid concentrations, whereas the complex compounds of rare earths with Card 2/3  Extraction of Rare Earth Elements With Di- and Tributyl Phosphate 3/078/60/005/012/013/016 13010064 tributyl phosphate are also stable at higher nitric acid concentrations. A. A. Sorokina is mentioned. There are 4 tables and 29 references: 14 Soviet, 11 US, 3 Brit1sh, 1 Danish, 1 French, and 1 Italian. SUBMITTED., July 9, 1959 Card 3/3  BHM , Z eA - MUSS To To # IM 0 ism* Removal of cobalt impurities from zinc solutions by the zanthogenate method with the use of hydrogen peroxide. Ukr. khim. shur. 26 no.5:658-662 160. (MIRA 13:11) 1. Institat obehohey I neorganicheskoy khimii AN USSR. (zinc) (Cobalt) (Zanthke acid)  -SHEKA, Z,A.-;-YRI R- ... Uaa-- Gomplexing in the systems containing rare earth nitrates and tri- or dibutyl phosphate. Zhur.nporg.kbim. 6 no.8:1930-1935 Ar '61, (MM 14; 8) (.Ure earth nitrate) (Butyl phosphate)  240 51020 61/138/004/014/023 B103/B203 2S OL AUTHORS: Kries, Ye. Ye. and Sheka, Z. A. TITLE: interaction of some rare earths with d1butyl phosphate and their separation by extraction PERIODICAL: Akademiya nauk SSSR. Doklady, v. 138, no. 4, 1961, 846-849 TEXT: The authors studied the complexes formed in the interaction of ions of rare earths with acid dibutyl phosphate (C 4H90)2HP02 (HDBP), determined their instability constants, and separated some pairs of rare earths by this method. On the basis of published data they concluded that dialkyl phosphates (R2HPO 4XR - alkyl radical), particularly HDBP, are superior to tributyl phosphate for such a separation. The distribution coefficients (q M) for extraction with HDBP decrease with increasing concentration of nitrates of rare earths. With the use of.R2HPO 4' the separation coefficient of adjacent lanthanides varies between 1.95 (light lanthanides) and 2.6 (heavy ones), whereas it lies between 1 and 2 with tributyl phosphate. Card 1/5  Interaction of some rare earths with 24053 S/020/61/138/004/014/023 B103/B203 Metal ions react with R2 HPO4according to the scheme n+ + nHA %MA + nH 4 M liz- n where ILA is a monobasic acid, in this case HDBP. The value of n is determined as tangent of the angle of inclination of the curve log qm; log fHDBF; and denotes the mber of HDBP molecules interacting with the metal"; ions. qm - [M) org/cmiwater* n - 3 was found for neodymium and praseodymium. DBP is dimerized in nonpolar solvents: M[H(DBF ] The )2j3* authors used the following methods: (1) fractional extraction of the metal from aqueous solutions by RDBP solutions in CCI 4; (2) isolation of the compounds and their chemical analyeisl (3) determination of the solubility of individual compounds in HDBP solutions In CCI V and of the distribution of rare earths between the aqueous and the non-aqueous phase. Ad (1): The authors found that the entire yttrium was extracted by the non-aqueous phase when reaching the ratio HDBP (g-mole) . Hence, they conclude that Y (g-at) Card 2/5  24053 5102 61/1381/004/014/023 Interaction of some rare earths with ... 3103YB203 the resulting compound M(DBP) 3 is not solvated unless there is an HDBP excess. Ad (2): Some solid neodymium and ytterbium compounds were prepared by mixing solutions of the corresponding nitrates with HDBP or its alcoholic solution. In a dry state, they alao had the composition M(DBP) 3' These experiments did not confirm the formation of complex compounds of rare earths with a ratio of molecule numbers higher than 1:3. Ad Mi The authors studied the solubility of M(DBP), in ILDBF solutions 175 in Ccl'4 with the use of radioactive Yb . They found that the solubility of Yb(.DBP) 3 increased with increasing HDBP concentration. This suggests the interaction Yb(DBP) + n(RDBP YbTH(DBP (2). They calculated 3 )2 )2]3 the equilibrium constant of the complex formation and determined the number of HDBP-molecules entering reaction (2). Hence, they conclude,that a coL.pound Yb(DBP) 3HDBP or Yb O(DBP)" is formed with an excess of complex 3 2.13 former. They measured the molecular electrical conductivity of the saturated solution of Nd(DBP) 3 (6.2-10-4-moles/1) at 20OC; it was 235;5- Card 3/5  24053 S102 6,1/138/004/014/023 Interaction of some rare earths with ... B10,3yB203 This suggests a strong dissociation of +;he complexes of rare earths with DBF. Considering this, the authors derive the equation for the equilibrium constant: logK - log q - 3 log fA_1- 3 log fHA" (7). Besides, they determined the values Of log-K for-the complexes of praseodymium. neo- dymium, and ytterbium of the type M ~_H DBP) 2-.3- they were 15.0, 15.3, and 18.5, respectively. The great difference in the stability of complexes between yttrium and cerium ele 'ments in the extraction with HDBP may be utilized for their separation. The separation coefficients depend on the position of elements in the lanthanide group, the cohtent of M103 in the aqueous phase, the HDBP concentration in the non-aqueous phase, and the quantitative ratio of the elements to be separated In their mixture. The coefficient varies between 1.9 and 2-4 for the pair Nd- Ho. In the re- extraction of elements from'the non-aqueoue phase, an additional separation may be attained by xitilizing the different atability of complexes with HDBP. Thus, cerium elements are precipitated by oxalic acid, and additionally separated from the.yttrium element.s. The latter can be precipitated by NOR from the solution in RDBP. There are 2 tables and 17 references: 3 Soviet-bloc and 14 non-Soviet-bloo, The 3 references to Card 4/5  24053 S/020/61/138/004/014/023 Interaction of some rare earths with ... B103/B203 the EngliBh-language publications read as follows- Ref. 3: D. F. Peppard et al. J.Inorg. and Nuel.Chem.4,344 (1957); 5,141 (1957); Ref. 12: D. F. Peppard, J.R. Faris et al. J.Phys.Chem., 57,294 (1953); Ref. 13: D. Scargill, K. Alcock et, al. J.Inorg. and Nucl.Chem., 4,304 (1957). ASSOCIATION: Institut obahchey i neorganicheekoy khimii Akademii nauk USSR (Institute of General and Inorganic Chemistry of the. Academy of Sciences UkrSSR) PRESENTED: January 5, 1961sby 1. T. Chernyaylv, Academician SUBMITTED; December 31, 1960 Card 5/5  A T.'TH Sheka, Z. A.; ~Eiss, Ye. Ye. T 1" T17 iExtraction of rare -earth el eirents and complex1formation pro- _~sa,~s resulting therebY SOURCEi AN UkrRSR. Inst t* zahaltroyi ta neorhanichnoyi khJ"41i i. Y ty po khimil rastvorov I 1comple1c.eny1cr, so T n--e F-Ty-, no qb2. Rabo yed 3, 1 Khlmlya rastvorov redkozemeltnykh elEmentov, TOPIC TAGS: rare--earth element, LlisEion product, lantancid, alcohol, tributylphosphate, dialkylpho!phoric acid, synergistic action C_ --action is used In the technology of nuclear materials, ext- -xtensi,,eiv for precipitating and se,arating fissicn products and for :-are-earth elements (REE). Complex In this study on REE extractIcn, Itfl cf the extractant and of r dd ItIves , _''~y :0:7.- fcrmed, on concentration anG Components in aq,_;eous dn~i non- phases and on the atomic numt,er of the lantanolds. Although i univernal method for separation of all the '-',EE 11-las nct been C3rd 1/3  :Q T I \I IM AT1002324 extr.%i~~tlve methodg for 14n~ I IV' d'A paIrS Cf 2 ~ 7~, 7. -:-e- te,.' .3r,-,ano.d3 have t,,ee:~ ~--n 3 e dil'~a ".-om literature nrid .-rlgln-i v, ~no ex-Iraction with neutral extractart, I with organic ac'IC7- 1CMDOunds with organic cat.Ic,s a 7.a eyl~rac,~ icr; of lantancids wl': -i I Pxtraction of lantanolds wlti a z I f P. EF 1,01 t h c t ~7 r r, n p h I na t e sp h c 3 7 t-ld fi r~,.7 -.'Ifferent e eff,~,~tive in extr~.!--tin.; FE, ha a t e,, en *, work cn ~:~EE 7 P C I Cl ed, synerg-Istic action of neutral os lnten3lfled with increasin;3 cf c s p1hory 1 g the n-butyl derivative of these phe)sphoric acias increased tne U-11s trlb,4- -t tion coefficient of dialkYWOOPhoric a-;;Xds "P respectively. Synergistic mixtures have not been found yet for all Card 2/3  N NP . AT 3002 3211 REE; in still unpublished work on the use of amines for FEE ext~rac- Lion. this ASSOCIATION: none SU13MITrED: 00 DATE ACQ.- 25May63 ML: 00 ,f% M SUB CODE: NS M~~.. -- - - Card 3/3  KRISS, Ye. Ys.; SHEKA, Z. A. Complex compounds of lanthanide nitrates vith nitric acid. Radiokhimiia 4 no.32312-322 162. (MIRA 15:10) (Lanthan= nitrate) (Nitric acid) (Unthanum compounds)  S/078/62/007/003/014/619 3110/B138 /,P 1.2 9 _5' AWHORSt Sheka, Z. A,, Krise, Yet Ye. TITLE; Compounds of rare-earth elements with dibutyl phosphoric acid PERIODICAL: Zhurnal neorganicheskoy khimiij v. 7, no. 3, 1962, 656 - 664 TBM Compounds resulting from the synthesis of rare-earth elements and yttrium with di-n-butyl phosphoric acid (DBP) were investigated. Specified volumes of a Y(No 3)3 solution of constant concentration were mixed with equal volumes of DBP in M 4 for 10 - 15 min, and the residual Y was determined as oxalate in the aqueous phase. YA 3 formed if there was no DBP excess.' Where there was excess DBP or Nd(No 3)3 the precipitates were washed out and analyzed with oxalate or Y(?;o 3)3 . The analyses of the dried precipitates revealed MA compounds in all cases. Lanthanide com- 3 pounds in DBP are well soluble in organic substances containing DBP. YbA in CCI dissolves to I-jo-7 mole/liter, and in 1 mole of a DBP solu- 3 4 -2 tion i to 05-10 mole/liter according to mA + nH A ,Card 1?3CC1,4 3 2 2 ILA 3 (HA)2n'  B/078/62/007/003/014/019 Compounds of rare-earth.se B1IO/B138 The complex formation constant readst K. S/ 'M A~ n. n, thn slope L A ~ [112 of the straight line log S - log LH2A211 was 1 112, which indicated the presence of Yb(HA2),* The equilibrium constant readas KI - S /PH2 A2]n 0-13 � 0.04. The radioactive isotopes Pr143 V Ndl47,.and Yb17 were From M n+ + nk-+ nHA.-,-IMA (HA) extracted by means of DBP solutions_in CC14' n In f".followas K' - LMA3 (HA)3jo/EM3+]"~A ~3LIU]3. Since practically complete B B dissociation was established from the electrical conductivity, K - q./[A-]3 E],A]3, where qm -.coefficient of metal distribution between B B the anhydrous and the aqueous phase - The logarithm of concentration of the monomer form of DBP in water reads, 1 Og~IlAjaq - 1/2(log CA - log K2 - 2 logKd - log2)9 where C A a total initial DBP concentration in the an- hydrous phase, K 2 - dimerization constant of DBP in the anhydrous phasep and K - distribution constant of DBP. At 0-36 - 0.18 mole/liter HHO d 3 concentration and a DBP content in the anhydrous phase between 0.125 and Card 2/3  5/078/62/007/003/014/019 Compounds of rare-earth#** B110/B138 1.0 mole./liter, the following values were found for the M(HA 2)3 complexes of Pr, Nd, and Ybs log K - 15.0; 15.4 t 0.2; 18.6 t 0.4. These values fitted those of europiumt log K w 16.8. DBF forms stable compounds with rare-earth ions. However, the complexes forming with excess of DBP are not stable. There are 2 figures, 5 tables, and 18 reference3i 4 Soviet and 14 non-Soviet. The four most recent reforencee'to English-language publications read as follows3 D. F. Peppard et al. Inorg. Nucl. Chem., J, 334 (1957)1 G. Duykaerte et al. J. Inorg. fluol. Chem. U, 532 (1960)1 C. F. Baes et al. J. Phys Chem t L2, 129 (1958)1 T. V. Healy et al. J. Inorg. Nucl. Chem., 10,,I~e (19;9)., SUBMITTEDi March 15, 1961 Card 3/3.  S/186/62/004/003/010/021 E075/E436 AUTHORS: Kriss, Ye.Ye., Sheka, Z.A. TITLE: Complex compounds of lantanide nitrates with nitric acid PERIODICAL: Radiokhimiya, v.4, no.3, 1962, 312-322 TEXT; Interaction between certain lantanide nitrates and nitric acid was studied by the.electromigration method and absorption by ion exchanger, in view of the widespread application of the systems for the extractive isolation and separation of lantanides. Results of the electromigration studies ~Atow that In, solutions with a high concentration of nitric acid tho s~;ability of anionic complexes decreases with the increasing-atomic number of the elements, whilst the stability of the cationic complexes increases, although their absolute concentration in the solutions is negligible. The stability of neutral complexes increases markedly with the atomic number. Results of ion-exchange an anionite 9A_'-)-lOn (EDE-100 confirm that the stability of ' %nionic nitrate complexex of the rare earth elements decreases in the order La > Pr > Nd > Sm > Dy> Yb. It was found that anionic Card 1/2  S/186/62/004/003/OiO/022 Complex compounds of lantanide ... E075/E436 complex La(NO;) - HNO forms in 7N HN03. For AN03 concentrations up to I to 1. 2, ca?ionic lantanide predominates; for 3 0 4M HN03 neutral complexes predominate; at higher concentrations of HNO (UP to 7M), elements of the Ce group form anionic complexes and3elements of the Yb group remain in,the form of neutral complexes. Constants for the formation of cationic.complexes were determined in order to evaluate distribution of a metal between cationic and electrically neutral forms. This work was carried out with,cation exchanger KY-2 M-2) in its hydrogen form and calculation made using the method of S.Fronaeus. From the results obtained it was inferred that the high concentration of HN03 in the solutions favours extraction of the lantanides with tributylphosphate. The heavy elements are extracted with larger distribution coefficients than the light elements. . At the high 15 olution acidity there ia.a.difterence between the composition of the heavy and light metal ions, the former forming electrically neutral complexes and the latter anionic complexes. Apparently the neutral complexes can form WN03) 13TBF in which form the lantanides are extracted. There are figures and 12 tables, SUBMITTED: April 20, 1961 Card 2/2  SHEKAq Z.A.I.KRIBSP Te,Ys* SIA 3ity of cation nitrate complexes of neodymium and ytterbluu. RadhWaiia 4 no.6020-725 162. . (MM l6d) . (Noodysium nitrate) (rtterbium~mitrate) (Complex compounds) 4  !. 1()6!119-63 '150 5 /151-1 KRi ALP3001222 S/0078/63/008/006/ A'37~iOR: Kriss, Ye. Ye. T Tj_~ ~ .4. Dependence of the solubility of rare eirth element dia-lkylphosphates on the concentration of dialkylphosphoric ac,,',.d in benzene SOURCE: Zhurnal noorganichaskoy khimii, v. 8, no. 6. lq63, 1505-151-1 ra-e-ji-r-c- ytterbi=, di- r-aady-=,-* n-oct paisp hoaphsO~e! y -di-v t ium wootyl. -And di-m-butyl ABST4qT litr4f ho itaia- Nhi;" 3) olutl =a of the dft "a in Von ------------------------ dt-il solubili was greater t6in that of- r "waz- sniubility of branchad-aWn compounds vae less- thsai that of" orrespcmding- n compounds. Solubility of KI sub 3 increases with ircreAsed concentratien of --a-Iculatod equi-librium constants indicate formation of the complex FIA sub no so-u"Ilty of Nd di-n-buty-',-hos hateAat diifferent concentratiors was iriclet~endent of temperature. nary r n!; now A, KA 3 time. s more oluble in carbon tetrachloride than in b