5(2),5(4) AUTHORS: Novik, R. M., Lyalikov, Yl.. S. SO V/7 5 -1 15 /21 TITLE: Polarographic Determination of Iodides in Melts (Polyarograficheskoye opredeloniye yodidov v rasplavakh) PERIODICAL: Zhurnal analiticheskoy khimii4, 1958, Vol 13, Nr 6, pp 691-694 (USSR) ABSTRACT: Earlier papers (Ref 1) reported on the possibility of determining various anions in a mixture of molten nitrates acting as medium and an electrode couple Ptmicro - Ptmacro The behavior of chromates and PJtrites in molten nitrates had already been accurately investilgated (Refs 2, 3). In the present paper ion J- is investigated, 1!,hicq causes two u-nmista-k-able waves in the anode range. The first ccrresponds to the anodic oxidation of the iodide; its magnitude depending on the concentration of the iodide. The second wave occurs only at the moment of introducing iodide into the melt and corresponds to tqe nitrite anion wave. Acidifying of the melt by KHS04 ca--ses the second wave to disappear) wahilst the first wave rerains unchanged. An addition of sodium nitrite to the melt causes the Card 1/3 second wave to increase in macnitude. The formation of nitrf-te  Polarographic Determination of Iodides in Melts SOV/75-13-6-15/21 in the melt after addition of iodide is explained by the reaction: 2 KJ + KNO 3 J2 + K1102 + K20 . Without considering this reaction, the determination of J- in the melt can be effected in a polarographic way, basine on the occurrence of a condition of equilibrium. The magnitude of the first wave of the iodide dies not change during the 30-120 minutes following the addition of the weighed iodide portion and is well reproducible. The polarographic curves are different, depending.f rom which side they are taken. This is due to a modification of the electrode surface while polarographing, especially at high temperatures. in order to obtain reproducibility, the anode must be cleaned by annealing. At 340 1 50 the half-wave potential is 0.32 � 0.02 V and is almost independent of the iodide concentration. W'hen the polarographic wave begins to appear, the anode potential changes only to a slight extentl while the cathode potential change is considerable. When the limit current is reached, the anode potential changes to a high degree, while the cathode potential remains almost unchanged. The temperature coefficient of the diffusion current was determined 'by two methods (Ref 3). it Card 2/3 amounts to 1.5'~~( per degree. It was established that the  Polarographic Determination of Iodidas in Malts SQV/7r-1"_6-15/21 .j .11 quantity of the diffusion current linearly depends on the concentration of J- in the melt. The determination of various quantities of potassium iodide on the basis of the calibration line offers satisfying results.-The mean error amounts to-� 11~-. Investigations showed that polarographic determination of iodides in molten nitrates at temperatures of 270-3900 and in molten chlorides at temperatures of 700-7500 is possible. Also the possibility of amperometric titration of the iodide with weighed micro-portions of silver nitrate and potassium- bichromate is shown. It was also established that a complex formation occurs between the ions J-, Cd2-~' and Pb2+ in molten nitrates. StiAdents of the University of Kishinev N. Zotova and Ye. Levinzon participated in carrying out the present paper. There are 5 figures, 4 tables, and 4 Soviet references. ASSOCIATIONi Kishinevskiy gosudarstvennyy universitet (Kishinev State University) SUBMITTED: May 30, 1957 Card 3/3  5(2,4) SOV/153-2-1-7/32 ALrLHORS. Temyanko, V. S., Bardin, bl. B.,.Lyal.ikov, Yu. S. z- - TITLE: Polarographic Determination of Flatinum on a Rotating Platinum Microdisk Electrode PERIODICAL; Izvestiya vysshikh uchebnykh zavedeniy. Xhimiya i khimicheskaya tekhnologiya, 1959, Vol 2, Nr 4, PP 503 - 508 (USSR) ABSTRACTt The authors criticize the use of the dropping electrode for the investigation of the polarographic behavior of platinum (Refs 1-14). The use of a solid electrode instead of the dropping electrode is more favorable for overcoming the difficulties occurring (Ref 15). There are, however, also some shortcomings. They can be eliminated if a rotating electrode is used. The composition of the paper under discussion was caused by these facts. Figure 1 shows the hermetic cell with a shutter and a rotating electrode. Figure 2 shows the volt-ampere curves of platinum. Figure 3 shows the examination of the reversibility of the reduction of the ion LF tCla '-. Table 1 shows the reduction potentials of platinum. Card 1/3 Table 2 shows the computation of the number of electrons parti-  Polarographic Determination of Platinum on a Retatirg SOV1153-2-4-7132 Platinum Microdisk Electrode .;ipating in the reduction reaction of the ion mentioned. Figure 4 shows the dependence of the diffusion current of platinum on the rotation rate of the microdisk electrode. As can be seer., the dependence found here agrees with the theoretical one found by means of the equation of V. Levich (Ref 22). The authors in- vestigated the possibility of polarographing platinum on the background of various electrolytes. They investigated the effect of the nature and concentration of the salts: NaNO 31 NaCl, NaBr, NaJ, NaClO 4' etc,further of the buffer solutions: of the acetate- and phosphate-citrate buffer, of E11031 H2SO 49 HC1, of ammonia, and other substances. The platinum wave increases to a certain extent (Ref 16) with the increa3e in the NaNO 3 or HNO 3 concentration. The acidity increase of 10-5 to 2 n by a concen.- tration increase of HNO did not influence this wave but, naturally, increased tha second wave. The use of NaCl or HC1, instead of nitrate, changes the character of the platinum polaro- gram. NaBr and NaJ (Fig 5) are still more effective. This in- dicates the formation of sufficiently solid complexes which Card 2/3 practically cannot be reduced on a platinum electrode. The second  Polarographic Determination of Platinum on a Rotating SOV/153-2-4-7/32 Platinum Microdisk Electrode wave corresponding to the hydrogen reduction is preserved in this case. The reduction potential, however, is somewhat shifted towards the more posItive range. The authors try to explain this phenomenon. The determination of platinum may be disturbed by oxygen since the reduction potentials of these two elements lie close to each other. Therefore, oxygen has previously to be re- moved. This is achieved by letting through nitrogen for 30-40 minutes. Further disturbances are caused by the surface condition of the electrodes formation of an oxide film. Various methods for their elimination are suggested in references 24-26. Figure 6 and table 3 show the dependence of the diffusion current on the platinum concentration in the solution. Hence it appears that the average determination accuracy is +5r,"o in the case of large platinum amounts, and about 10cllo in the-case of small amounts.- There*are 6 figures, 3 tables, and 26 references, 11 of which are So-let. ASSOCIATION: Kisainevskiy gosudarstvennyy universitet) Kafedra analiticheskoy khimii (Kishinev State University) Chair of Analytical Chemistry) SUBMITTED% January 2, 1958 Card 3/3  (4) Dardin, M. B. , j!yalikov, Yu. ~S. , SOV/75-14-1-4/3,' Temyanko, V. S. Rotating Platinum 1.-icro-Disc On the Cluestion of Usina 1!',loctrodoo in Polarogra-phic Analysis (K voprosu o primenenii vrachchayushchagosya platirovoCo mikrodiskovogo elektroda v polyaroCrafichoskom analizc) -27 4,1 Zhurnal analiticheskoy khimii, 1959, Vol 14, ',r 1, pp 24 (USSR) C -'evich (Rof 2) worked out a general quantitative theory of the disc olcctrode. In the nresenco of an indifferent electrolyte the diffusion current id9 caused by the re 'duction of an unchs-r~;ed particle or byan ion, obeys to the following equation- id ~ o.62n P D2/3 0) 1/2 V -1/6 es ..7r,cre nis the number o.~ electrons participating in the reaction, -,. is the Faraday constant, D is the diffusion cr~f~:icient in cm2see, w is the angular velocity of the 01-octrodo rotation (- 21rin, ri boing the number of rotation s:'Cond),  (.,~:tion of !~,:J ~hc, kincm:,-tic V; 'r - tio-, " - Cen co. ol 'C: 1.ic :I'- C U Cu A be 0 c On c 0 c ! 10 . -;u I Z;. in ~'.I j.u 1 ' o c r'. a(A n -.0 C.' -ith ~710 ' 1 A-Jox; 1 ~'7' c- A I . -I  7otating -1-Linum Soll ,u /75 Annlyiis tl- at olcctrij~vc ~-lay also ba, orriplo,.-od fo:,., in thil i'101/. ".,Ul. "lio I-Ino ro the.y ofjfc:~ covur~~.l corpared, .At*.,i roll cloctrodo.,,, bc~in!; (:-,Ic*i to c1can, .xid. thero-fore, havinf~ Ion-Or lifo. (1-*, rt~ront t--Pc-, Y,:-;cro-di--c clectrodec aro al-o 5 Z'icu-1-a ~'nlble~;, ziiid 15 rof orenc., l.; of -.;I.ic:,t -ciy tvc~7z-.yy uni,.r. - i t . t -Arhinow;, c C, September 27, Gard 5/3  AUT11011. Dili ... Loh. a. 3: 3OV/75-14-4-30/30 TITU* Sootlass of Analytical Chemistry of the rill x*nI*l-Ywv CO'Wross an Coneral and Applied Chemistry ?ZRZODICA.Li Zhurn4l analiti.ho.kay Wisil, 1959. Vol 14. or 4. pp 511-512 (van) APPrOxIsest-ly 300 Per--" Parti-iv-t-d in the wark or Department at Analytical Chemistry. Among then My"samte, of vq~ioam gotenWic ragerah inatioute~, higher schools and "Is. 'let. true, Chi". DMICGJ!184 - 313 ft hd UWWU7. zA Italy. Lppmxi-t.17 10 "port .." board. In his opening speech 1. P,_Ajl,~~rvprt.l am thl.:hlo,od ".ulto and on -d.M problems of .0424tl4.1 Ghoul *try. 4. 1. Ta--z!v reported an the &rplloatl*a of physica-0 chemical foualTain In W*-tera"wous systems for th* solution of 4 "rise . problems Of analstloal. aba=l:tr7.P1T. 1. Zus-tanT "Dort-4 -4 w44= 8.148 In the us. of _A.J~~bk Moved at the Axampl. of halide .A tl~iccyaosl. mon ::., the co~latlon between the stability of coapI the pualtia. of the corresponding co,atral mines in the ;:ri*dLe IL lectured an the stability 27*06. T-X..EMAbkaTjL Of 6XI"t.6 of Cu. Co. and MU an d..pszdL=C an th. structure of the oxIat molecule. _TZ~Jmxuau lectured an the double character of reaction of same compounds in the formation of eampl. nos. the p-tl.a of the apyt1catL*v. or bAturopolyazids in anayUGLIL chemistry was dealt vIt3h In the lectures at 4.4 31. A. .X-Z-XuiL.khoTa and co-scrrkars, &rAA.1 To ID221&knau. A large -wab.r of X..tuxv .1:,k the'... . are, organic reagent. In _AZ_A~A Y_Z._Z!Rgyutlz "Ported an the application of dia.1kyl And dlaryl dlthlo- phosphoric -14 far th4 w.p.-t1a. of elements. A I &r.yl ~mlc maLd and U71. ph.sphlale "Id. 1. P l4stovokLy ad him ool-awkeft treated a.- proportion of ..; ompl".us. ?h. lactu,res of I_A__XAXa=ZL9, C_g. Im"t-1,3L and . I - A tic& or a *:t dealt with the photometric date-mir"' .3-66 ~~!: =.t$ "1n& fluorine drIvat... A. 1. Charts.., I.at-I .4 1" .- of bal-brazati.a. 1. analyti-I hAoi &.4 T. U, lta:umd an the determination of tantalum u.slAd Patroybot...tr7. tR_r_Xj-.h-kiZ had " Lto part4a on now highly awnsIll- analy.ia ~thcdm 1.2ot 5.worml lectnres dealt with methodical sad theoretical pmbl..* of spectrum Q_._tL_takbpzLy and Y- T.Traht. -A am~rkarw~ ;CU. 3. Poluokta, And X. I. Ilk.nowe tra.z.1 th. port r1 4 pb4toottr7. S."ral loct."m d.&Z* with the *at do It. raL n& of element. by polaxacrphy (S. T, Al -k- 1. Iq-hd--tx,n,k 1. A. Ya___1 I To. P. Gokh; n.D-.e' U.. erm And- "Oultg in usire ri.od I.NANG1. ~-.. rij~rited-bx- T. D. es.nahj&q Lad ju. S. Lyalikov And oo-woessra. Mh* locturv of 1. 1. vdau!n- Iros.-ad the -4 of -;wrvz.trtc titratl.n t n the chemistry of uradlun t44 thorj%ag. U. M. S.vy%win h ... d p .. ibiliti.. of p-dl.tIuj the oditl." of ch-astag-pbl. ..gazatio. of ol.a..to based their pool lan I. ~. periodic my.%... T. A. 3.1y.w. ralort.1 t oa the us. of %on exckarge In the Isw94tIS&tL0M 4' the $14%. of wabstana In walutlo.4 &,j_j!rL.Adb And bra" gr%;hlc up.- in. ,.v t= th to t .1 reported an adapting the g.-Pr As is, be . ra end rol,.,t., 1-1d. preps~-tl- In on the hraantog-phi Card 314 liquid& of the orgs-nila. G. I- Staroblrots and &860CIAtO8 trva-et the application of high polynors in chromatographic analy.te. The J.ctrv of r4 G..S*L dealt with gas chro"toraphy. Several lectures t-eatod tt~e use r re.dloentIrs Isotopes for the chr-t~rraph4c Invootifat4on of co.~Jsx f.-.tio. end ss..J.tos). far %h. Iavestigation of the co-procipit&tIon machari.. of t.- of to r. metals with vulfide& (D- I. R-ijoar) and for do . ral. mi ~g -re .laments bj Aa- of I topz dllutioL ad VA~=Isars with th A I.. __ ... Z,-:.l annoclataw twTo to be uentinmd, vho t-tod Me al-~tlon -If rapid micromethods for the sizujtu~ous d.tomi-ti.. r ..,-z f-..." brc.. fl~rl- -4 I ~y  PHASE I BOOK EXPLOITATION SOV/4278 Lyalikov, Yuriy Sergeyevich Fiziko-khimicheskiye metody analiza (Physicochemical Methods of Analysis) 3rd ed. Moscow, GoskhImizdat, 1960,. 438 P. Errata slip inserted. 15,000 copies printed. Ed.: K. D. Leontlyeva; Tech. Ed.: Ye. G. Shpak. PURPOSE: This textbook is intended for students of chemistry. It may also be used by workers In research and plant lab- oratories. COVERAGE: The book deals with the theory and practical appli- cation of physicochemical methods of analysis. Laboratory apparatus and instruments are described. In this edition special attention is given to des-riptions of new apparatus used for physicochemical methods ~f analysis. Problems and practical exercises are given at the end of each chapter. The author thanks the following persons for their assistance: Doctor of Chemistry A. I. Kokorin and Candidates of Chemistry N. A. Polotebnova and M. B. Bardin, all members of the Card~  Physicochemical Methods of Analysis SOV/4278 Department of Analytic Chemistry, KishinalrRviv go5udarstvennyy universitet (Kishinev State University); , V.,P.Sychev, Docent, Optics Department, and Candidate oi iriijalcs and Mathematics; and L. V. Nazarova, Docent, Inoraanic Chemistry Department, and Candidate of Chemistry, both of the same university. References accompany several of the chapters. TABLE OF CONTENTS: Foreword to the Third Edition 5 Ch. I. General Information 7 1. Methods of analysis 7 2. Processing of observation data 10 3. Graphical presentation of observation data 20 Problems and questions 22 Bibliography 26 Ch. II. Colorimetric Method 27 1. Theory of colorimetric method 27 2. Equipment 42 C&rd447.  IYALIKOV, Tu.S. First All-Union Conference on Polarographic Analysis. Zav.lab. 26 no.5:648-649 160. (MMA 13:7) (Polarograph-Congresses)  $8278 S/032/61/027/001/003/037 ~'v3oo 3 1/3) BO17/B054 AUTHORS: Safronkova, N. N. and Lyalikov. Yu. S. TITLE: Chemical Analysis of Semiconductor Allopin the System In - Sb - Te PERIODICAL: Zavodskaya. laboratoriya, 1961, Vol. 27, No- 1, pp. 21-22 TEXT: A complexometric method of determining indium in the presence of antimony and tellurium by redox reactions has been developed. Tellurium is reduced in acid medium by iodine, and antimony (III) is determined by titration with bromate using methyl red as indicator. Preliminary tests were made with synthetic mixtures of spectroscopically pure indium, antimony, and tellurium. The sensitiveness of tellurium determination in the presence of antimony was found to be t 0-5%- Indium determination in the presence of antimony and tellurium was possible with an accuracy of t 0.5%. Indium was determined at pH 8-10 by titration with 0.01 M Trilon B solution and with the use of eriochrome black ao indicator until the color changed from violet to blue. Compounds and alloys in the system In - Sb- Ta were studied. There are 4 figures. Card 1/2  Chemical Analysis of Semiconductor Alloys in the System In - Sb - Te f . - ! 88278 S/032Z61/027/CC1/003/037 B017/3054 ASSOCIATION: Institut khimii Moldavskogo filiala Akademii nauk SSSR (Institute of Chemistry, Moldavian Branch of the Academy of Sciences USSR) Card 2/2  LYALIDOV, Yu.S., prof., doktor "Electrode processes and research methods in polarography" by W.K.Delimarskii, A.V.Gorodyskil. Reviewed by IU.S.Lialidov. Zav.lab. 27 n0-7:918 161. (MIRA 14:7) (Polarography) (Delimarskii, IUA.) (Gorodyskii, A.V.)  8/137/62/boo/612A85/685 A0061AI01 AUTHORS: Iyalikov,~Yu. S., Kopanskaya, L. S., Safrokova, N. N, TITLE': Chemical and physico-chemical methods for determining Indium, antimony, ,and tellurium in semiconddetor alloys PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 12, 1962, 19 abstract 12K118 (In collection: "Fizika", Leningrad, 1962.' 26 - 30). TEiT: The authors developed m&cro- and microchemical methods of determin- ing'In, Sb and Te, without separating same, in semtoonductor *alloys. The mean V errpr does not exceed + 0.5%. For In determination,.5 mllO%-solution of Seig- -.. nettels salt, 10 - 15 ;l buffer mixture (pH 8 -% 10). and eriochroire black tracer.. are added to the solution under investigation. The mixture is heated to the boil- ing point and titrated with trilon B until it turns blue. To determine Sb, 5 - 10 ml HCL (It4) and one drop of methyl red tracer are added to the aliquot portion of the solution, which is t1trated in 0 1 n KBrO solution until it turns yellow. To determine Te, 1 2 g KI is added io th~ aliquot portion of the Card 1/2  S/137/62/00()/012/085/085 Chemical and physico-chemical methods for. Aoo6/Aioi solution which Is then titrated with Na thlosulfate in the presence of starch. To determine the aforementioned s6b3tances, physico-chemical methods were also developed (potentiometrical, polai*ographical and colorimetrical methods). L. Voroblyeva [Abstracter's note: Complete translation) Card 2/2  PODRAZHANSKAYA, Ye.Lj-.~Y K-QY,-Yu,$,.,..-,doktor khim.nauk, prof., A~L nauchnyy red.; MATKOVSKAYA, N.A., red.; M&NDELIBAUM, M.F., takhn. red. [Polarography; index of literature on polarographic study methods, 1950-1957]Poliarografiia; ukazatell literatury po poliarograficheskim meto4am issledovaniia, 1950-1957 gg. Kishinev, 1960. 72 p. (MIRA 16:2) 1. Akademiya nauk SSSR. Moldavskiy filial. Nauchnaya bibliotaka. (Bibliography-Polarography)   ACCESSION NR: AR.3000205, of the sam acid to a 10,m1 flask and brought up to-the mark. To dater- mine Ta: to 1ml sample solation, added equal volume of 10 K-Na-tartrate Ml a=oniUm chloride buffer of pH 8-10; heaM at 75" and solution,, 40-5 titrated with 0.01 M solution of Comnlexon III to Eriochrome Black T. -To determine Sb: to 1, ml of solution be ing analyzed -is added I ml HC I ( I I heated at.60* andtitrated with 0.*05 N solution of bromide-bromate to Yethyl,Red (the indicator Is added at the end of titration).- To determine Te: to I ml of solution being analyzed is added I ml 11C1 (1-0), an excess a- of dry HI, andthe liberatediodine is titrated with.0.1 N solution of N thiosulfate, in the preience of starch, Titers of the solutions are deter- mined under the same conditions against solutions of salts prepared from elemenU OfLhighest degree of purity. In-titrations it is mandatory to take into account indic4t,or error. Reproducibility of determinations is- entire13~ satis&ctory. Average relatIve error less than 3%. On analysis of a sam 'L ,ple'of less than 'I'mg, 8b, and Te are titrated potentimetrical. y. determine Sb,' to-$OlUtion of the sapple are added 3 ml 11C1 (1: 1), di- TO luted with vater~ to about 20. ml.. ~ an4' titrated, with. bromide-bromate solu- tion, with Pt Indicator electrode and saturated calomal electrode,, using LP-58 potentimatear, ln~ determining To. to the solutionLof the sample are Card 2/3  ACCEW1011 ?;R:. MOOM05 added 3. ral IICI01), excess of KI, diluted with water to 20 ml and tit- rated with SolUtiOn of Na-thiosulfate. Ablank.titration is carried out concurrently., Error of determination.of Sb less than 4.7%; of Te, less than 6.4. ~ The methodAs suitable for analysis of film of semiconductor ass it is treated with molten materials (to remove the film fromthe g3 K-bisulfate and veight of samle is determined from.decrease in welght of glasB)., and ofmie'rosamples obtained-by drilling from different phases of,semiconductor materials, N. Chudinova  KOPANSKAYAI. L.S. ; LYALIKOV, YU.S. Photocolorimetric analysis of the system indium - anti-Mort.7 - Izv. AN Mold. SSR no.10:31-37 162, (MIFA 17:12)  BODrtl,, V.I.f KOZ14VA, I.V.1 IZA=OV, U.S. Palm polaregrapbie-nothod of analysis (survey). Zav. lab. 28 no.911042-1047 162. (MMA 16W (Pblaroxmpby)  BODYU, V.I.; KOZLOVA,.I.V.; SISTER, Yu.D.; LYALIKOV, Yu.S. Determination of the end voint in acid-baBe titr-ation by means of tensammetric pea6. Zhur. anal. khim. 18 no.5: 659-661 My'63. (WRA 17:2) 1. Institut khimii AN Moldavskoy SSR, Kishinev.  BODYU, V.I.; LYALIKOV, Yu..S. Pulse polarographic determination of some alklehydes. 7nur.anal.khim. 18 nc,.8-.1007-1011 Ag 163. (MIM 16:12) 1. Institute of Chemistry, Academy of Sciences, Moldavian S.S.R., Kishinev.  LYALIKOV, Yu.S.; MADAN, L.G.; BODYU, V.I. Pulse polarography on solid electrodes. Zav.lab. 29 no.11: 1289-1291 163. (MIRA 16:12) 1. Institut khimii AN Moldavskoy SSR.  LYALIKOV, Yu. S.; BODYU, V. I.; MADAN, L. G. "Alternating current polarography at the stationary electrodes." report submitted for 3rd Intl Polarography Cong, Southampton, 19-25 Jul 64. Univ of Kiev.      LYALIKOV, Yu.S.; SISTER, Yu.D. Pulsopolarograph-4c detemination of calcium and magnesiizn. Zav. lab. 30 no.9:1073-1074 164. (MIPA 19:3) 1. Institut khimii AN Moldavskoy SSR.  LYALIKOV,ju.S.; RADAUTSAN, S.I.; KOPANSKAYA, L.S.; MOLODYAN, I.P. Synthesis of complex semiranductor phanes and th-(jir analysis, Vest. All SSSR 34 no.9:75-78 3 164. (MTRA 17:10) 1. Institut fiziki i matematiki AN MoldavBkoy SSR i institut khimii AN Moldavskoy SSR. 2. Chlen-korrespondent AN Mol-davskoy SSR,  SOLONAR', A.S. Polarographic determination of hexachlorobutadiene. Zhur. anal. khim. 20 no. 11:1228-1230 165 (MIRA 19:1) 1. Kishinevskiy gosudarstvennyy universitet. Submitted llovember 17, 1964.  PCDOIEIJKO, A.A.; CHIKRYZCVA, Ye.G.;,,WgKgV, Yu.S. Coulometric determination of nitroso compoundB. Ukr. khim. zhur. 31 no.8:844-846 16~. (MRA 18:9) '-. Institut khimii AN Moldavskoy SSR.  MADPJI, L.G.; LYALIKOV, Yu.S.; BCjDY(f, V.I. Puli3e polarographic dot-ormAriation of motala on rolid Zav.lab. 31 no.10:1182-1183 165. (mi'u :L9: I) 1. Institut khimii AN MolCavskoy SSR.  LYALIKOV, Yu.S.; BODYU, V.I.; KOZLOVA, I.V. Ise polarographic r,,--t'-rad of deLe-Jr-ing Z-neb. 7a-,-.Iab. 32 U .1 - P no.10:1190 t65. 1. Institut khi-mii AN Moldavskoy SSR.  LYALIKOV, Yurly Sergeyevich.- VASKEVICH, D.N., red. 1~ [Rqsicochemical methods of analysis] Fiziko-khimiche- skie metody analiza. Moskva, Khir-iia, 1964. 557 P. (MIRA 18; 10)  W ACC NRt AF6036390 SOURCE CODE: Uq/0032/66/032/01AL/13'i9/1.120 AUZHM: Lyalikov, Yu. S.; Kolchina, X. Ye. O'RG: Institute of Chemistry, MoldSSR (Institut khinii L\I I-LoldSSR) 'TITIE: Datermination of the main component's in semiconductor compounds of indium with and phosphorus .SOTjRCE. Zavodskaya laboratoriya, v- 32, no. 11, 1966, 1319-1320 ~TOPIC TAGS: indium containing alloy, arsenic o-o phosphorus cc;;;~ quantitative analysis ;.ABS'LaACT: Zae article describes a method and the results of an analysis o' fhe binary !alloys InP and 1nAs and the ternary alloy InP-InAs. To bring arsenic and Phosphorus ;'into the pentavalent state, weighed portions were dissolved in a flask with nitric acidi i !or with a mixture of nitric and hydrochloric acids. Determination of indiiza was done by thp direct volumetric: complexometric method using xyxyl orange as the indicator. Ini the analysis of the alloys InP and InAs the results were on the low side; this is it~aought to be connected with the formation, at a certain p1i, of indium. arsenate and Adding ammonium citrate salts to the solution before titration promotes ,rhos,phate. ;solution of the precipitate which falls out and aids the normal titration ol' indiun. !In addition, the addition of this reagent helps to establish the required pH of the, Card 1 /2 UDC: 543.7  ALL; -AP6036390 solution, 3.5. In analysis of the BP alloy, phosphorus was determined i=ediately after the determination of indium in the same solution, by the magnesia weight method. in Vne analysis oil the InAs alloy, after determination of indium, AsO4,- was determinedp: in the sam solution by the io ometric method. In the analysis of the !nP-!nAs system, As was reduced according to the reaction: Aso3-+2j- + 2H+ ~- AsO3'- -JrIi,O-N,. 4 'thus paving the way for the subsequent determination of in the presence of As03- . t> Pq 3 hosp. orus content was determined after determinati n of the arsenic, by The V 0 the magnesia method. All experimental results are shown in tabular form. Orig. art. has: Itable. SUB CODE. 07, 11/ SUM DATE; none/ ORIG REF.- 002/ OTH REF. 003  I L 12155-66 EW(d) rJP(c) ,ACC NRt AP6000012_ SOURCE CODEs UR/0208/6570-05/006/0979/09901 ,CMHORS s Birger, (Moscow); joralikoval N.B. (Moscow) ORG: none TITLEs Pinding solutions satisfying a given condition at,infinity for systems of .ordinary differential equations. I SGURCEt Zhurnal vychislitelluoy matematiki i matematicheakoy fizikig V- 5t no. 6, 19659 979-990 TOPIC TAGSt differential equation, boundary value problem nonlinear equation, first order differential equation, Cauchy problem ABSTRACTi The authors consider the system :t'AX+v1(t,X) +, 19 01'- 0) to < I of nonlinear first order'equationsi,where r is a nwmegative integerp A is a constant matrix allof whose .eigenvalues have positive real,partat f(t#X) is defined and ,continuous for IXI small and t t'g(t) is defined and continuous for to Z too lim g(t) - 0. Considering the Cauckq problem at oo# they show on the basis t -P 00 of their results that one can solve the bmmdu7 value problem for linear aystems with Card 1/2 UBCS 518!.-  L 12155-66 .ACC NRs Ap6o()0012 t7 49 t -P oD with a condition of boundedness of solutions at the right end of 110 ICO)j and some condition at to. A version of this problem on the finite interval ZTO,T7 is also considered. The authors express their gratitude to A. A. MIA kor stating the problem and for mch valuable advice. Orig. art, hast 25 formlas- SUB CODEs. 12/ SUM DATE i 04-TaU65/- ORIG RM 003/ OM Mwt 002 Card. 2L2  EU t(d) ljp~c) ACC NR, A1'6018627 CODE: UR/0208/66/006/003/0446/045.3 ,':AUTHOR: Birger, Ye. S.; Lyalikova, N. B. ORG: none TITLE. On finding solutions with a given condition on infinity for several-syste ordinary differential equations, IT SOURCE: Zhurnal vychislitellnoy matematiki i matematicheskoy fiziki, v. 6, no. 3, 1966, 446-453 TOPIC TAGS: ordinary differential equation, Cauchy problem, boundary value problem, perturbation theory, approximation method ABSTRACT: On the basis of Part 1, 1965, 5, No. 6, 979-990), which treated the Cauchy problem in infinity for several nonlinear systems of form X; = tA (t) X + V/ (t), under the assumption that matrix A0 does not have purely imaginary eigenvalues, an ex- tension is made to the case where A0 does have simple eigenvalues on the imaginary axis. In (1) the functions AM and f(t) are continuous on [to, oo) and for t-+.oo have the following asymptotic representation: 0* A A (9) - 2 _". th.  M iACC NR- AP6018627 0 JA practical solution of this problem is offered by the method of projection from infin- jity to a finite point T, thus reducing it to an equivalent boundar-j value problem on ithe interval [to,T]. The extension is made practicable by the possibility of using perturbation theory to determine corrections in the non-multiple eigenvalues of AO which lie on the imaginary axis. This means that one can find a linear manifold of bounded solutions of system (1) by considering only a finite number of matrices Ak in the asymptotic representation of AM for large t. Orig. art. has: 36 formulas. SUB CODE: 12/ SUBM DATE: 22Jul65/ ORITREF: 001/ OTH MF: 000 Card 2/2  LYALIKOVA, N. N. Some properties of microflora of silt and their role in balneologic properties In silt. Trudy Inst.mlkrobiol. no.4:202-206 155. (MLRA 9:1) (90 THZRAPT, bacteriol. factor in ther. value of silt) (BACTMIA, ' in silt, balneol.aspects)  USSR/Microbiology - General Microbiology. F-1 Abs Jour : Ref Zhur - Biolso No 12, 1958, 52741 Author : Lyalikova., 17.N, inst Title : A Study of the Assimi0tion Process of Free-.Xarbonic by Purple Sulfobactoria in Lake Beloved, Orig Pub : Mikrobiologlyn, 1957, 26, No 1, 92-98. Abstract : In 1954 a study was conducted on the ecology of purple sulfobacteria (PS) in 1.0ce Beloved (Vladimir region),. which.is characterized by PS mass production frora the genus chromatium (up to 170-000 cells per ml) at a depth of 12- 13 M, where the border of o-4gen and hydrosulfite zones is located. By exposing light cuid dark flasks with cultuxes of Sconedesmus it vas established that photosynthesi 's in the lake is possible up to a depth of 17 m. At a depth of 13-14 m the PS have a sufficient amount of light and H2S. Laboratory experiments with a ctrm-lative culture of PS Card 1/2  IVANOV, M.V.; LYALIKOVA X.N.- k=NETSOV, S.I. ------- Role of Thiobneillus in the weathering of rocks and sulfide ores [with summary in Engli8h]. Izv.AN SSSR Ser.biol. 23 no.2:183-191 Mr-Ap 158. (MIRA 11:4) 1. Institut mikrobiologii AN SSSR. (THIOBACILLUS) (WEATHERING)  ITALIKOVA. N.H. " Studies on chemosynthetic processes in Thiobacillus ferroxidans [with summary In English]e' Mikrobiologiia 27 no-5:556-559 S-0 158 (MIRA 11:12) I# Institut mikrobiologii AN SSSR' (TRIOBACILWS. metab * chemosynthesis in Thlobacillus ferrooxidans (Riis))  SOV/18()~59-1-25/29 N-11 AUTHORS: Zarubinaq Z.M.,.Lyalikov~. N. and Shmuk, Ye.I. (Moscow) TITLE: Investigation of the Microbiological Oxidation of the Pyrite of Coal (Issledovaniye mikrobiologicheskogo okisleniya pirita uglya) PERIODICAL; Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, Metallurgiya, i toplivo, 1959,Nr l,pp 117-119 (USSR) ABSTRACT: This is a preliminary communication on work carried out ointly by the Laboratoriya Obogashcheniya IGI AN SSSR Enrichment Laboratory of the IGI AS USSR) and the ~ Institut Mikrobiologii AN SSSR (Institute of Microbiology of the AS USSR) on the oxidation of coal pyrites by microbiological methods. The work was started in 1957 as part of the general study by the former organization of methods of oxidizing -zoal pyrites for desulphurization. A culture of Thiobacillus ferro-oxidans was prepared and added to coal samples. In one of each pair of samples the bacteria were killed. Analysis for sulphur after 10, 20 and 30 days showed that in these no desulphurization Card 1/2 occurred In contrast to the samples with live bacteria (table). The fineness of the coal and the age of the  SOV,/180-59-1-25/29 Investigation of the Microbiological Oxidation of the Pyrite of Coal culture had some effect on the oxidation. A.Z. Yurovskiy and S.I. Kuznetsov advised on the work. There are 1 tabl"a and 7 English references. SUBMITTEDs July 12, 191~8 Card 2/2  LYALIKOVA, N. N.: Master Biol Sci (diss) -- "The physiology and ecology of Thiobacillus ferrooxidans in connection with its role in the oxidation of sulfide ores". Moscow, 1959. 16 pp (Inst of Microbiology of the Acad Sci USSR), 200 copies (IG., No 11, 1959, 117)  LYLLIKOVA N. N. IMNA of Thiobacillus ferrooxidans in the oxidation of sulfide ores in pyrite deposits of the Central Urals. Mikrobiologiia 29 no,3. V2-387 Mv-Je '60. (MIRA 13:7) I 1. Institut mikrobiologii AN SSSR. (URkL MOUITTAINS-PYRITES) (THIOBACILLUS)  LYALIKOVAt N.H. PhYsiology and ecology of Thiobacillus ferTooxidanB with reference to its role in the oxidation of sulfide ores. Mikrobiolool'Aa 29 no.5s773-779 S,-O 160. 13:13.) (IR(~ff BACTERIA) (SULFIDES)  WIN LYALIKOVAO N.N. Role of bacteria in.the oxidation of sulfide ores. Trudy Inst.mikrobiol. na.9:134~1-/1,3 161. (MMU 15:5) 1. Institut mikrobiologii AV SSSR Moskva. (Sulfides i (Him Wter-MicroblolbW) -  LYALIKOVA, U.N. Role of bacteria in the oxidation of sulfide ores in the copper- nickel,beds of the Kola.Feninsula. Mikrobiologiia 30 no.1:135-139 Ja-F 161. (MIRA 14:5) 1. Instituta mikrobiologii AN SSSR.' (KOLA PENINSULA--SULFIDES-~IICROBIOLOGY)  KUZNETS0V S-L; IVANOVx H.V.; LYALIKOVA, Iq N.- IMSHMTSKIY, A.A., BEV FM ;tv. red.; SHCIMRBAKb~,. ,*,e -va; S C NO, G.N., tekhn. red. [Introduction to geological microbioloq] Vvedenie v geologi- cheskUiu mikrobiologiiu. Voskva, Izd-vo Akad. nauk SSSR 1962. 238 p. (MIRA 15:31 1. Chlen-korrespondent Akademii nauk SSSR (for Imshenetskiy). (Geology) (Microbiology)  IVANOV, V.I.,-.LYALlKOVAs N.N. TaxonoTq of iron-oxidizing Thiobacilli. Mikrobiolo iia 31 no-3:468-469'My-Je 162. %L 15:12) 1. Inatitut mikrobiologii AN SSSR i Urallskoye otdeleniye Vsesoyuznogo nauchno-isaledovatellskogo geologo-razvedochnogo instituta. (BACTERIA$ SULFUR)  LYALIKOVA9 N.N.; KU--IKOVI%, M.~. Leaching of rare elem---nts from sulfide ores -,uider the influence .3-674 of bacteria. Dokl. AN SSSR 164 no -6,~6 S 165. (MJRA 18:9) 1. Institut miki-obiologii AN SSSR i Institut mineralogii i geokbimii redkikh elementov. Submitted November 28, 1,964.  LYALIKOVA2,14.1l.; jSOKOLOVAP GOA. Microbiological characteristics of Some ore deposits of central Kazakhstan. ldkrobiologila 34 no.2:335-343 Mr-Ap r69'. (MIERA 18: 6) 1. Institut mikrobiologii AN SSSR.  LIPIS, B.V,, Rani.takhn.nauk; LYAI,IKCJVA, 1,,.Yu.; L.L~ I SLeci-r3plictuiretri-2 M3thod for detqrm3n-rg +,arln-ng and - - - - , -f 1 4. Substancea in grzape must and w,ne. Trad~i MITT-l"T 4ilG9--,-L,,. 0 (MIRAI 18,,~)  LT PTS 9 B.V., kand.takhn.riauk; LY.AlIKOVA, R.Yu.~ DUGAYVIA, L..,~ HLgl--froqur-.n,,y Utration of vfne a-ad Trudy ri-11.11PIP, 4--l'.15-123 164. (MIRA 18".1',  POL0TFjBVOVAq N.A.; ~YALIKOVAq R.Yuo Photocolorimetric determination of dionine. Apt* delo 10 no. 1:5&-59 Ja-F 161. (MIRA 14:2) (COLORIMETRY) (MORPHINE)  LIPIS, B.V,j MOIAKOV, A.A.; YEPIFANOV, P.V.; Prinimali uchastiye: SPEUOR, L.A.; LYALIKOVA, R.Yu. Naeration of grape juice. Trudy NNIIPF 2:81-86 162. (MIRA 16.4) (Grape juice)  LIPIS, B.V.; DUGAYFXA, L.J.; LYALIKOVA, R.Yu. Spectrophotometric method of determinIng the quall%i a-f i-IM anticorrWive epoxy resin coatings on aluminum. T , 112111 -11PP 5379-86 164. 0~1-~IfIA 19,~J)  30417 0/-? .5) S/058/61/000/009/b39/050 A001/AlOl AUTHORS: Simashkeviah, A.V., L7alikova, T. TITIE1 Temperature dependence of zinc selenids photoconductivity PMUODICALs Referati.vnyy zhurnal. Fizika, no. 9, 1961, 225, abstract 9E38O I'Uch. zap. Kishinevsk. un-t!', 196o, v. 55, 21 - 23) TEXTt 3:n order to-alarify the processes taking place In ZnSe being sub- jected to illumination, the temperature dependence of photo.conductiVity of ZnSe layers obtaine*d by atomiXed cdating in vacuum and annealed in air was investi- gated. Thu temperature dependence of photoconductivity was-Dbtained in both the aimosphere from room temperature to +3000C and in vacuum from the liquid 02 temperatmeto+1500C. In both cases, with rising temperature photocurrent in- .creases, attains a maximum and +,hen drops (in the atmosphere the maximum is displaced toward higher temperatures). The magnitude-of photo -currOnt-and dark current at measurements in vacuum is higher than.In the atmosphere; this is apparently explained by disappearance of traps, created by adsorbed air, in the ZnSe layer in vacuum. The gr6wth of photo-conductivity in ZnSe occurs in the Card 1/2  3e417 S/058/61/000/009/0.39/050 Temperature dependence of zinc selenide ... A001/A101 temperature range corresponding to transition from extr1iD#ic to intrinsic con- ductivity; it is probably connected-with an increase in the life time of carriers. P. Nad' Z [Abstracter's note: Complete translation] Card 2/2  LYALIKOVA, V. S.: Master Med Sci (diss) -- "rhe state of the organ of vision in syphilis patients with protracted observation". Tomsk, 1958. 18 pp (Tomsk Med Inst), 200 copies (KL, No 6-, 1959, 145)  IZAL1KOVAv V.S. State of the eye in patients with syphilis during prolonged oboervation. lbst.demA ren. 33 noo6t4&31 N-D 159. (SUM S) (M) (MMA 13:12)  BERCH, P.F. [Birch, P.F.l ; -~Y ~A.A. ~ranslatorl Use of the regression method in compounding'rabber mixtures. Kauch. i rez. 19 no. 11:58-63 9 160. (?4I:U 13:11) (Rubber)  ACCESSION NR: -AP4038905 S/0138/64/000/005/0001/0004 AUTHORS: Lyalins A. Ao; Shvarts,* ke G.; Buyko, 0. N, TITLE: Applia-Go-n-oT -calculated characteristic properties of rubber mixtures SOURCE: Kauchulc i rezina, no. 5, 1964, 1-4 TOPIC TAGS: internal friction, rubber plasticity, impregnated mixture, activation .energyj*polymerj viscous flow, intermolecular interaction, vitrification temperature.. 'ABSTRACT: The temperature dependence of tihe hardness index and modulus of internal- :,friction in rubber, determined on a Cornfeld instrument, were investigated experi- mentally. Hardness measurements permit the determination of original rubber :plasticity for a specific mixture, and friction measurements shed some light on tho~ :heat-generating characteristics of rWober. Both impregnated and nonimpregnated :mixtures-of various rubber bases: NK, SKI, butyl-300, SKS-30MIN and SKN-26 were 'investigated (properties of each specimen are given in tabular form). Xeasurements 'were made in the temperature range 20-100C, and the results are presented graphical- ~ly as lgk versus 1/T (r~- viscosity). The results agree closely with the 'Arrhenius formula Card 1/2 !16 -  !ACCESSION NR.- AP4o389o5 ulqr 4where ~T - viscosity at absolute temperature T, U nominal activation energy of jpolymer in viscous flow, R - gas constant,),-O-'eonstant. The magnitude of U was I !was calculated for the hardness index of raw mixture specimens and for internal ifriction modulus, U is found to depend on the nature of the polymer,, increasing 'Un general) with an increase in intermolecular interactions and increase in Ivitrification temperature. The initial plasticity of the rubber does'not affect !the temperature dependence of the mixture hardness. Orig. art. hass 5 figures, 12 tables, and 1 formula. ./ !ASSOCIATION: Nauchno-issledovatellsldy institut shinnoy promy*shlennosti i(Scientific Research Institute of the Tire Industry) !smrrm: oo DATE ACQ: O5Jun64 EDICL; 00 SUB CODE,-. Mr NO REF SOVz 009 OTHIM% 002 Card 2/2  LYALIN, D. I Improving the deoign of ta4cabs. Avt.tranap. 40 no.12:32-33 D 162. (MIU 15.12) (Ndcabs)  RZADKOWSKI, Jan (translator] Soviet-made passenger cars. Horzy techn 18 n0-4:12-13 Ap 1641. 1. Chief Specialist of the State Committee for the Construction of Automobiles and Machinery for Farming Purposes at the Stato Planning Commission of the U.S.S.R.  KAGAKOVICH, Z. I.; SK _jPl,IT D. V.- ; 1,TSHM' 1y, 1- 1,1- j_,_ EnUs - The Lubrication of the Stamping Hammers 'lest Mash p. 30, Sep 51  LYALIN, D.Y.; ATOYAN, X.M.; YUSHMP.HOV, A.H. Passenger care and motorbuses at the Geneva Automobile SxUbition in 1960. Avt.p:rom. no.8:36-43 Ag 160. (MIRA .13:8) (Geneva-Exhibitions) (Automobiles) (Hotorbuses)  UAL IN. Z, inzh. O:i~arilzation of' tIns traasportat~on of mineral bu-41ding =.aterlalz 5hou"A meet current de4plinds. Rech, transp. 24 no.7:15-16 165. (MMA l8s8) I, T3entrai~riyy naachno-donledovatellskiy instultut ekonomiki i !..Tar..,.porta.  LYATAIN, F. Separation of a gravel and sand mixture in hydraulically mechanized unloading. Rech. transp, 21 no.10:15-18 0 062. (MMA 15: 10) 1. Nachallnik mookovskogo Zapadnogo porta. (Hydraulic conveying) (Separators (Machines))  - -L-Y"~j-ulvr- - - LTALIN, iao - Operation of crevless barges. Rech.transp, 16 no.12:35-36 D 157. (mm 11:1) l.Glavnyy inzhener Zapadnogo porta Moskovskogo parokhodstva. (Barges) __,  Ai- LYALIN, F.I. Hydromechanical unloading of sand from barges. Recb.transp. 17 no.9:13-16 S 158. (faRA 11:11) 1. Glavnyy inshener Mosknvskogo ZapadmgIO-Porta. (Sand--Transportation) (Loading and unloading)  BUKHMN, Yevgeniy 14ikhay'lovieb; LYALIN, Foliks Isayevich; SANDLER, Polina Yev'seyevne, SHLYAPIN fg--o ri I -A nidre"y--ev I a-h--;--R'-OK'-&YAN, S.S., red.; DWKOV, Te.D., red.; BOWHOT, H.I., takhn. red. [Survey and comparison of foreign standards for designing the structural section' of electric ppwer transmission systems] Chor i sravnenis zarubezhnykh norm na proektirovanie konetruk- tivnoi chasti linii elektroperedochi. *Pod obahchei red. S.S. Rokotisna. Moskva, Goa. energ. izd-vo, 1960. 143 P. (MIRA 14:5) (Electric power distribution)  ARTEMIYEV, Aleksey Vasillyevich; VOSEMENSKIY, Aleksandr Alekseyevich.- ITTENBERG, I.A.9 kand. tekhn. naukv retsenzent; LYALIRNU-F'I9f inzh.p red.; MAKRUSHIM9 AJI.p red. izd-va; BODROVAp V;-r.9 teklm. red. [Loading and unloading machines and mechanisms] Pogruzochno- razgruzocbrye mashirq i mekhan' =y. Moskvaf Izd-vo "Rechnoi transporty" 1961. 409 0 (MIU 34:7) (conveying machinery~ (Cranes, derricks, etc.) (Loading and unloading)  LYALIN, F.I... inzh.; I%IOVGO,;IODTSP-,V, B.P.p inzh.; SIERENUSIS, red. [Designs of the supports and wires of a.c. superhigh voltage power transmission lines, 1961-19631 Konstruk- tsii opor i provodov linii elektroperedachi peremermoga, toka sverkhvysokogo napriazhaniia, 1961-1963. Moskva, 1964. 68 p. (MIRA 18:2) 1. Akademiya nauk SSSR. Institut nauchnoy informatsii.  ---AP6025684- souRcz-coDE-.---M/0411/66/000-/013/0150/0150 Nk, EhTOR: L~alin, F. I. ORG; None TITLE': A steering unit for guiding docking vessels. Class 65, No. 183617 1 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarny-ye znaki, no. 13, 1966, 150 TOPIC TAGS: marine equipment, auxiliary ship, remote control ABSTMCT: This Author's Certificate introduces a steering unit for guiding docking vessels. The unit consists of a motor-propeller assembly set in the bov of the vessel and remotely controlled from a tug. Vessel control efficiency is improved under conditions of rotary motion, and coupling reliability is increased between the vessel and the motor-propeller unit by mounting a plate which can turn horizontally on the deck of the motor-propeller unit with a bar connecting the bov of the vessel being towed by hinge-and link couplings. Card 1/2 uDc; 629.12-42  4 7- 1-~rmotor-propeller assembly; 2-bov of docking ve&sel; 3-attacbment, for turning the motor-propeller assembly; 4-turning plate; 5-rods SUB CODE: 13/ SUBM DATE: 20Apr64  BUKHARB, Yevgeniy Mikhaylovich; KOLYAKOV, Ayzik Mordkovich; KUROSOV, Aleksey Ivanovich; LYALIN, Feliks Isayevich- tom'-f-.E., ine.-- - TROFD40V Viktor Ivanovich; L [Designing structures for electric transmission lines using the method of limiting states] Proektirovanie stroitel'TWkh konstruktsii linii elektroperedachi po predel'rWm aostoianiiam. Pod red.B.M.Bukharina. Moskva, Energiia, 1965. 111 p. (MIRA 16:11)  LYALIM, G.M. 11 .... ~ 7 Attachment to the TaPA irachine for sawing veneer. Der. prom. 12 no.lOs2O 0 163. (MIRA 16:10)  MALIN, G*M* Working of parts with nemiuval profiles on the FK-l carrouBel-type milling machine. Der. pram. 12 no.8:23 Ag 163- (MIRA 16:11) 1. Sarapul'skiy Issokombinat.  .j -7 ~.-ACCESSIOI NR: ~AP300. 0 0' 6/0051/63/015/002/0253/026 fA OA:,, Koby* shev 0, U M ,TITLE.- Luminesoefice of and iniracomplax energy transfer In uranyl phthalocyanIne.. opti4a'I ~spoktroskopiyai: .15. no.2.~ 1-963 253-261 V, :TOPIC TAGS: lunitnescence,energy transfer' uranyl ion phthalocyanlne~ AbSTRACT; The purposes of tlie work, were to Investigatti the luminescence of the cam. ~Pl6x com I witir, phthalooyanine in the expectation,that there would be: pound of:urany ob rum c ar t' served'the spect 4 h eristic'ofietal-containing hthalo-eyanines nd MSI.~; bly~the luminescence of th ran I cation itselg, and-to obtain evidence or intralf complex. en r transfer; The uranyl-phthalocyanino complex was synthesized. _byV.F'.,: gy_ -BorNkin In tlie.lvitnov,-Ch6mical,Enginearing Institute by a procedure analogous to -that empl yed,b X.M.Kogan (Khimiya krasiteley PYye chemistr p.657, H. 1956) 'Tot .0 Y/ ..synthesizint metallo-phthalocyanines. That the complex actually was formed was 'chacked by.Infraired.spectroscopy. T4e luminescence.spedtra.in the red and near -kinfrared (500 to 1000,mll) regions were recorded photoelectrically by means of-a set --up. assembled- about. an ISP-51 glass optics spectrograph (dispersion at 700,04L  L-17782-63 -?M: :AP30058W~: ACPESSION -6p66tra-wi~r6 'obtained for the- 02Phc (Phc the phthalo ya-~ b~ouiv,5!m~vmm), The ,U nin*o-s'holeto*n)-!s~s6ended~iu:va~aline:oiI and in. solutioncr in dioxano and nonane i-! ~Thes were compared,*ith:.the spectra-of-metal-free J12PhQ and MetPhc, The re sdltm;-~ 6n. nqs-i ~ 0. DOMI 96imAti Study of the fine structure of the I J~ umi plearly in solution) method Indicates that the urany.L, ,cance spectra by the- Shp6l,tski (frozen .,i' -scarce -4Z 1y perturbs th ener y,leveU of:tho.conjugated bond a on 0 g Ystem of the' O'rp6irin~rincOf U020hc.Jhe:,'coordinat1nC uranylAon participates in the 6-11 P process, The excitation wavelength dependence of the luminescence spectrum Jndj.a~ the' existence of at leant two.types of luminescence centers: one active:ifi cates ~tr nsitions from an excited singlet state to the ground state of the:; 1; --6lectronic a ..complex; the other,~ig responsible for luminescence incident to transfer of cnergy~ fi- th ranyl cation to the~~systcm of it-conjugated bonds of :the azaporphyrin rom e it bring. A number of the absorption and luminescence spectra are reproduced in~' thq:." figures. The waVenumbers of.the luminescence lines are listed in tables. take this 4portunity.to thank Academician A,N.Teranin for suggesting th t I OP and*,guidanco in the work. We. are also grateful to Docent V.F.Borodkin of vfic 'Chemical Engineering Institute for synthesis of tho-c nov amplen and to labortitc techniciarl,P.S.B *strov for i~ecordlnd the Infrared absorption spectra. a 10: f igures and 4 tablesb .,Card  8/020/63/148/005/012/029 B'102JB186 AUTHORS: Lyalin, G. N., Kobyehev, G. I. TITLEt Luminescence of the uranyl-phthalocyanin complex PERIODICALt Akademiya nauk SSSR. Doklady, v. 146, no. 5, 1963, 1053 - 1056 TEXT: The uranyl-phthalocyanin complex investigated was synthesized by V. F. Borodkin in the Ivanovskiy khimiko-tekhnologicheskiy institut (Ivanovo Insti- tute of Chemical Technology). The IR absorption spectrum of the complex was characterized by the 1055, 1068, and 1530 cm-1 bands which are observed in phthalocyanins containing metal atoms, and the 1310, 1325, and 1006 cm-1 bands similar to those observed in free phthalocyanin. The 920 cm fre- quency observed is attributed to stretching vibrations of the'UO++ ion. All 2 bands differ in intensity from those-observed in metal-free phthalocyanin. The electron absorption and luminescence spectra also differ for uranyl phthalocyanin and metal-free phthalocyanin, both dissolved in dioxane. The solvent has little effect on the position of the peaks. The presence of the uranyl complex is characterized by the 661, 632, and 598 (2900K) absorp-, Card -1 /2. --- ----  S10201631148100510121029 Luminescence of the ... 3102/B186 tion and 676, 710, and 748 m (77 K) ltLminescence bands. The integral in- 0 tensity of the luminescence spectrum decreases at 77 K and increased with T. The vibrational structure of the spectrum was studied by Shpollskiy's method (UFN, 77, 321, 1962) at 770K on UO 2-phthalocyanin samples dissolved in honane, and compared with the results obtained for metal-free H 2-phthalo- cyanin in equal concentration 00-5 M). The fact that the luminescence in UO 2-phthalocyanin proved to depend partly on the exciting frequency indicates the presence of at least two different luminescence centers. The series of peaks with 676, 709, and 747 MPL is a result of the luminescence of electronic excitation on the complex as a whole. The series with the green peak (692 m~L at 2900K) arises on energy transfer from the UO++ to the system of Tr-conjugate bonds of the azaporphyrin ring of the UO 2-pgthalocyanin molecule. There are 3 figures and 3 tables. ASSOCIATION: Leningradskiy gosudarstvennyy universitet im. A. A. Zhdanova (Leningrad State University imeni A. A. Zhdanov) PRESENTED; July 21 1?g2, by A. N. Terenin, Academician AUBMITTED; July 10: 2 Card- -272 -    L 134lo-63- BDS. ACCESSION NRt AP3000526 1662 /04ib "~AUTHOR:-- Lyalin,,'~G. No'; Koby*sbav, G.'I,;-Teren1n,4..H._ ~TITLE: Qwnching of luminescence of carotenoid adsorbanto MUM-. AN SSSR. Doklady jr.~ 150# no. 2,0 1963, 407-410,- -;;TOPIC TAGS t luminescence-quenching,, carotenoid adsorbants',.klabilityj Beta- ~!carotine, lutein a rue ;ABSTnCT-.- The adsorbants and solutions of Beta-carotin and the st turally related lutain which enter into the composition of the pigments of a photo- synthesizing plant were studied. The lability degree of addition of 0 sub 2 to themolecules of~tbese pigments was explained in detail by the luminesuence lquenabing,method. "'We wish'.to express our thanks to Professor D. I. Sapozhnikov foraubi6itting Data-carotine and luteiii specimens and to V. I. Shirokov for carrying outAh6 fluorometric measurements." Oiig. art. has: 3 figures and formula. ~:ASSOCIATION:- Nauchno-isoledovateltskiy fizicheskiy institut Leningradskogo I.gosudarstvennogo uhivtraiteta Im. A. A. Zhdanova (Scientific Research Institute z ;of P48ics, Leningrad State University) Card,,  KOBYSHEV, G.I.; LYALIN, G.N.; TERENIN, A.N., akademik Photoreaction of Mg-phthalocyanin with a coordinated uranyl cation, Dokl. AN SSSR 153 no-4:865-868 D 163. (MIRA 17:1) 1. Leningradskiy gosudarstvennyy universitet im. A.A. Zhdanava.  ACCESSION NR: AP4009478 S/0051163/015AO6/0837/0838 AUTHOR: Koby*shev, G.I.; Lyalin, G.N.; Terenin, A.N. TITLE: Manifestation ol a hydrogen bond in the luminescence spectrum of magnesium phthalocyanine with uranyl nitrate hexahydrate SOURCE: Optika I spektrookopiya, v.15, no.6, 1963, 837-838 TOPIC TAGS: hydrogen bond, protonization, magnesium phthalocyanine, uranyl nitrate, magnesium phthalocyanine luminescence ABSTRACT: In an earlier investigation (G.I.Koby*shev, G.N.Lyalin and A,'N.Terenin, DAN SSSR,148,1294,1963) in which photoluminescence was employed to study excitation energy transfer from the coordinated Uor, ion to magnesium phthalocyanine in ethyl alcohol solutions there was established the following unique effect., at 2900K there .is present in the luminescence spectrum of Mg phthalocyanine the usual narrow peak of this compound at 673 aft together with a number of secondary longer wavelength peaks, but upon freezingof the solution (cooling to 7M this peak virtually dis- appears and a now peak at 703 up appears in the sensitized luminescence spectrum. It was Interred that the now band was due to a protanized fozu of the pigment. Ac- Card 1/2  AP4009478 cordingly, in the present study there'were recorded the fluorescence spectra of mag- nesium phthalocyanine molecules adsorbed on silica gel and aluminosilica gel under .conditions of higher resolution (DFS-4 diffraction grating spectrometer with photo- .electric recording). In the case of both adsorbants there was observed the same strong peak at 702 mg. In view of.the fact that these different adsorbants have in common the presence of proton donor centers, it is logical to attribute the now peak to a protonized form of.Mg phthalocyanins, ioe., to a formation of a hydrogen bond. The probable mechanism of protonization is discussed and other features of the luminescence spectrum of protonized Mg phthalocyanine are described. Orig.art. .has: 2 figures. ASSOCIATION: none SUBMI 23May63 DATE AOQ: 03Jan64 ENCL: 00 SUB CODE: PROCH NR REF SOV: 006 OTHER: DOO Card 2/2  LYAL111, G.N., ibzh. .......... Efficiency of electronic systems vith unit-type or panel structure. Priborostroenie no.12:23-24 D 165. ORIF A 19: 1)  L 26061-66 9a(i) sarp DD ACC NRi AP6015085 SOURCE CODE: UR/0020/66/168/001/0068/0071 AUTHORI Kobyahev, G. I.; Lya-lin, G, N.; Terenin A. M. (Academician) Leningrad State University im..A. A. Zhdanov (Leningradakiy gosudarstvennyy universitet) kzr~.' TITLEz Luminekencei.of chlorophyll-excited by a'ruby laser- 17, .~SOURCE: AN SSM Doklady, v. 168,1no. 1, 1966, 68-71 '_~TOPIC TAGS: luminescence, lumineacence*spectrum, luminescent material, laser laser effect, chlorophyll ABSTRACT., Experiments were performed. to detect radiation emission.during transition of a molecule from the second excited sirgkt level to.the:ground level (S* so). .':4'h1gh-power ruby laser (J. L. Hall et al., Phys. Rev. Lett., 11, 364.(1913); W. L'. Peticolas, et al.-, Phys. Rev. Lett., 10, 43, (1963);' J. R. Birks et al,, Ph a. Lett., y 18, 127 (1965) was used to excite solutior of chlorophyll "a" (5 x 10- M), methyl- chlorophyllide (5 x 10-3 M), magnesium phthalocyanine (10-4_M) in ethyl alcoholp chlorophylline (5 x 10-3 M) in methyl alcohol, and phthalocyanine without metal (10-4 M)..in dioxaneo The emission from a "Razdan" K-4-2 laser (pulse energy of 1 joule, with a pulse repetition frequency of 2 cps) was focused on the object by a lens thra*h AKS-17 light filter. The luminescence of the object was separated by means of a'ZMR-3 monochromator (linear dispersion in the investigated range was Ccird 1/2 1JDC: 535,373.2