SCIENTIFIC ABSTRACT NAZARENKO, V. A. - NAZARENKO, V. M.
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A U -IMOR S t Sakharov, 7. kolesnikov-Svinarey, V. 1. , SOV120-124-2-20171
Nazarenko, V. A., Zabidarov, Ye. I.
TITLE: The Areal Distribution of i3arth Ejected by Subterranean
Explosions (Raspredeleniye na mestnosti grunta, vybrasyvayemogo
pri podzemnykh vzryvakh)
Pi3RIODICALt Doklpdy Akadomii nauk SJSSR, 1959, Vol 124, Nr 2, PP 314-317
(USSIO
A-133211,ACT: The Institut Vhimllcheakoy fiziki M: SSSR (Institute for
Chemical Physicn, AS USSR) collected experimental material
concerning the distance of ejection of various portions of
earth ejected by an explosion. The material is in many respects
of some interest. When carrying out such experiments, it in
necessary first to divide the area of ground before the
explosion takes place within range of the crater to be formed
into sections, and after the explosion the manner in which the
fragments of earth are distributed over the said area must be
determined. Various parts of the area -acre marked by means of
radioactive indicators. Before the explosion 50-60 ampoulea
Card 1/3 containing 1 millicurie Sb 124 were introduced into the soil
The Areal Distribution of &arth SOV-120-1 24-2-:`J, 7 1
Ejected by Subterranean Exploriofio
throu.-h narro-..- cr:-.c.'.,;. 20 o,. expluzion,, wor out
in this manner with from 10 kt; to 10 t a,.w:onite ,.t
various d,~pths both in and in loar.. Yurt!,.cr, 1 =7
ammonite .;r 6 -.-,ere exploded in a depth of :Q r..
chnractori:--tic ruailtr 1,riven 1),, 2 dia:'-raris pornit thc
conclusions to be dra-an: 1) Tiw direetion into -thic:i nach
particle of earth is ojocto4 I-aads, when tranced bacl, -,n tho
opposite direction, throu,'-.1; thu, conter of the explosion. The
direction in which that part of the around which is located
immediately above the char,~;e i3 ejected is indefinite. 2) The
distance covered by each ejected part of' the earth is
determined by its position with respect to the charge and
varies, with conditions otherwise being unchanged, within the
margin of t 30c 3) The dereniiince of the diatance of flight
from the position of (,he reonective part of the ground before
the explosion in shown by a nomo,-ram. Phe smaller the an,-,Ie
between the rndius and the axis of the crater, the farther
will the earth be thrown. Thic dependence i.: cG:1~ionted upon in
detail by the authors. Thosf.- rc!gulari ties are qualitatively the
same with all explosions of char.-ca of different strength. The
Card 2/3 maximum distance covered by the ejected earth increases only
The Areal Distribution of Earth SOV/20-124-2-20/71
Ejected by Subterranean EXplosions
slightly with an increase of the charge. ".'-'ith conditions
otherwise remaiping- unchantred this distance decreases with an
increase of the depth Yr of tho charge at the rate of 1/7,4
All this holds for explocions in loons, and for poverful
explosions in loan, but not for ;Teak o.,.plonionn (10-100 in
solid loamo. In the latter caue no pormnnent regularltleo %-.rore
found. Finally, the authors thank M. A. Sadovskiy,
Corresponding Member, AS USSR, for bringing up the problem,
and V. 17. Rodionov for his collaboration in organizine the
above described rork an ivell as for discussing the results.
V, A. Hogachkov and V. A. Shabashev are grratefully mentionad
an havin,,; renderod practical anniatrince.
ASSOCIATIONt Institut khimiches'koy f'izik.1 Akademii nauk SSSR (Inrtitute for
Chemical ?hysics of' the Academy of Sciences, USSR)
PRFSENTEDs September 10, 1950, by V. J. Eondratlyev, Academician
SUBMITTED: Septenber 15, 1956
Card 3/3
NAZARENKO, V. A. , Doc Chem Sci -- (diss) 116tudy of the mt-clianisji of'
a ~ orp-_,7anic com-
colored reactions of Ferzanium with hydroxyl-cont inink-
pounds." Moscow, 1960. 25 pp; (Academy of Sciences US.I:Ji-,, Iri--,:t of' Gt;o-
chemistry and Analytical Chemistry im V. I. Vernadskiy); 150 copies-
price not given; list of aut-hor's work on pp 23-25; (KL9 22-60, 131~
FAZARMIKO. V.A.; VINKOVWSFATA. S. T&. (Vinkovetelka, S.IAJ
Analytical use of complex coupotLrAs of baron with phonnIcarborylic
acids. Dop.AN URSR no.2:196-197 16o. (MIRA 13:6)
I' Iastitut obshcha7 I neorganlchesko7 kh1n1i AN USSR.
Predstavlano akademikom AN USSR A.K.Babko.
(Acide) (Boron coupounia)
AMORS? Nazarenko.
TITLEi A Sensitive
Titanium by
86161
S/07 60/015/'003/016/033/XZ
B005Y3066
V. A. and Biryuk, Y,,, i.
and Selective Phrtozetric. keth~~d rf
Ideans of DisQlfo-phenylfluorore
PERIODICAL: Zhurnal analiticheskoy khimii, 1960, Vol. 10i, No
PP. 306 - 310
TEXTs Derivatives of 2,3,7-trihydroxy-6-fluorone which are substituted at
C9, give color reactions with titanium in weakly acid solution (Ref.1),
Most of these derivatives however hydrolyze at high pH, and precipitate.
By introducing sulfo groups into the molecule of trihydroxy-fluorone the
tendency toward hydrolysis may be eliminated and the sensitivity of the
color reactions is increased. Such a highly sensitivp reagent for the
photometric determination of titanium is q-(2',4'-diaulfo-phenyl)-2,3,7-
trihydroxy-6-fiuorone (I), the syn+.hesis of which has already been
described earlier (Ref.4).
Card 1/4
A Sensitive and Selective Photometric Yethod
of Determining Titanium by Means of Disulfo-
phenylfluorone
L1,161
5/07 60/015/003/016/033/XX
B005YB066
HO~Olr 0 0
HO C
1
$'\,SO H
Y
so3H
Of five derivatives of trihydroxy fluorone with different aubstituents R
at C9 (R - propyl-I trichloro-methyl-; phenyl-; o-hydroxy-phenyl-;
o-nitrophenyl-; 2,4-disulfophenyl-;) the above reagent has the highest
sensitivity for the titanium determination (Table 1) The authors of the
presont paper determined the optimum conditions for the titanium determina-
tion with an alcoholic solution of disulfophenyl trihydroxy fluorone. The
optimum pH value for the determination at 6 and is beat brought about
by means of a pyridine-hydrochloric acI4 b~iffpr solution. At this pH the
Card 214
86161
A Sensitive and Selective Photometric Method S/07~/60/015/003/016/033/XX
of Determining Titanium by Means of Disulfo- B005 B066
phenylfluorone
molar extinction coefficient of the violet complex solution has the
value 108000 The optical densities of solutions of the complex were
measured in alfMC-5f (FMS-56) photometer with a color filter permeable
to light of Tne wave length 570 m/k. The absorption curves of solutions of
the pure reagent and of the titanium complex at pH 6 were taken in a
CI-4 (SF-4) 8pectrophotometer The absorption maximum of the complex lies
at 570 m,&, where the pure reagent absorbs to a very small extent (Fig 2).
The composition of the complex was investigated by two waysi by the method
of isomolar series and by the method of molar proportions Titanium was
found to react with disulfophenyl trihydroxy fluorone in a molar ratio of
Ti : R - I j 2. The solutions of the complex obey Beer's law (Fig.6) The
least titanium quantity determinable is 0.01PIgIml. The maximum colora-
tion of the solution is attained 10 minutes after the reagent is addea,
and remains stable for 12 hours. The disturbing influence of germanium,
tin(IV), antimonv(III),and molybdenum may be eliminated by masking with
thioglycolic acid; zirconium, aluminum,and iron may be masked with com-
plexon III. The optimum quantities of these masking substances are
0-3 ml 10% thioglycolic acid, 0,1-0.5 ml of a 10% complexon solution for
Card 3/4
86161
A Sensitive and Selective Photometric Method 5/075/60/015/003/016/03-j/H
of Determining Titanium by Means of Disulfo- B005/BO66
phenylfluorone
5 ml solution The authors used the described method to determine traces
of titanium in pure germanium and silicon. After dissolution of the
sample most of the germanium is distilled off in the form of tetra-
chloride, whereas in the case of silicon most of it is distilled off as
silicon tetrafluoride. Titanium is determined in the residue by the method
described. In this way up to 5-10-6% titanium may be determined in
silicon or germanium. The course of the determination is described in
detail, and Table 3 shows some of tile results obtained. The present
paper has been presented at the section of analytical chemistry of the
VIII Mendeleyevskiy a"yezd pc obahchey i prikladnoy khimii (VIII
Mendeleyev Congress on General and Applied Chemistry) There are
6 figures, 3 tables, and 6 reference-si 5 Soviet and 1 Indian.
ASSOCIATIONs Institut obahchey i neorganicheskoy khimii AN USSR,
laboratorli v Odesse (institute of General and Inorganic
Chemistry AS UkrSSR, Laboratories in Odessa)
SUBMITTEDi April 7, 1959
Card 4/4
HAZAM7KO, V.A.; VINKOVMSKAYA, S.Ta.
Solubility product of gallium dibromohydrox7quinolicate. Ukr.
khio.zhur. 26 no.1:107-109 16o. (MIRA 13:5)
1. Institut obahchey i neorganichaskoy khimil All USSR,
Ioboratorit v Odessa.
(Gallium compounds)
HAZARXIMD, V.A.; TWA, N.A.; 1FLYAWIMVA. G.T.; SSTFRLIS. K.A.
Analysis of pure setals; determination of admixtures of lead and
zinc in indium and thallium. Zav.lab. 26 no.2:131-135 160.
(MIRA 13:5)
1. Inatitut obahchey i neorganichaskoy Wall Akademli nauk
USSR.
(lead-Analysis)
(Zinc--Analysis)
Ondium)
(Thallium)
SHITAMA. G.G.; FAZ&R=O. V.A.
'frllWdro2Tflmoron* derivatives as reagents for tollariumo
Zhur.prikl.Wo. 33 n0-71368-372 ii '60.
(KURA 13: 7)
1. Institut obabobsy I asorcanichookor "lull AN USSR,
laboratorlt Y Odessa,
(Tellurlun-Amalrels) usaxanthenow)
0
S/07;~60/026/003/007/0110Z
B023 060
AUTHORS: Shitureva, G. G. and Nazaronko, V. A.
TITLE: Derivativen of Trioxy Fluorone an Reagi-4nts on Tellurium
PERIODICAL: Ukrainskiy khimicheskiy zhurnal, 1960, Vol. 26, No. 3,
pp. 368-372
TEXT: The authors wanted to find out the behavior of tetravalent tellurium
toward co-,rpoundB containing the orthooxy quinone grouping ani being reagents
for ions of the tetravalent metals germanium, lead, titanium, zirconium,
hafnium, and thorium. The authors were particularly interested in the de-
rivatives of trioxy fluorone and examined a total of 15 derivatives of
2,3,7-trihydroxy-6-fluorone. Experiments revealed that at pH 4-6 the tetra-
valent tellurium reacts with the majority cf the trioxy fluorones examined.
The trioxy fluorones specified in Table 1 were the most sensitive in re-
acting. The subatituents on C 9 were 1) propyl, 2) P-hydroxy-a-naphthyl,
3) 4-hydroxy-3-methoxy phenyl, 4) 2-methoxy-3,4-methylene dihjdroxy-()-ethY1-
P-methyl amino phenyl, 5) trichloro methyl, 6) 4--nitrophenyl, 7) 5-nitro-
2-h,ydroxy phenyl, 8) 3-nitzo-2-hydroxy phenyl. Reagento 1, 2, 5, and 6
Card 113
Derivatives of Trioxy Fluorone as Reagents on S/C)7,7/()01/'026,//C)O'~/007//DI 11'IX
Tellurium B023/EO60
have a sensitivity of 0.2 y/ml,
an I the reagents arid 7, i~ aLri:i _t ivi t.y
of 0.4 Y/ml. The introduction of ethyl alcohol into the solution prevento
the reagents from co-precipitating, but it also prevents their reactang
with tellurium. No more than 10 alcohol rnuot be contained in the solution.
With 20% alcohol, tellurium does not react at all. A study of the spocifici-
ty showed that under these conditions trioxy fluoronoo react with Al, Fc,,
Sc, Au (III) , In, Ge, Sn (IV) , Sb (III) , Ti , Zr, W, T'o, U, Ta, !Tb, V (V)
Te (VI), As(V), nnd Sb (V) do not react. Se reacts neither in tetra- nor
in hexavalent form. Summing up: The Aerivritives of 2.3.7-troxy fluorone
substituted on C in weakly acid medium (pli 4-6) %ith tetravulent telluria,,L
give rise to coAred complexes, whose composition corresponds to the ratio
Te:R - 1:2. It was proved that 9-propyl-2,),7-trihydroxy-6-fluorore (propyl
fluorone) and 9-p-hydroxy-a-naphthyl-2,',7.-trihydroxy-6-fluorone (P-hydroxy
a-naphthyl fluorone) are suited for the photometric determination of te'L.
lurium. The solutions of complexes at optimum p1l 4-5.6 obey Beer's lfw
at a tellurium concentration of 0.4 - 2.4 Y/m ''. Table 2 shows the determina-
tion of tellurium in the presence of other elements. There are 4 figure~l
2 tables, and 3 references: 1 Soviet, 1 US, and 1 Japanese.
Card 2/3
Derivatives of Trioxy Fluorone as Reagents on S/07 60/026/003/007/011/7-X
Tellurium B023yno6o
ASSOCIATION: Institut obshchey i neorganicheskoy khir-ii AIN USS)R, Labora-
toriya v Odesse (Institute of General an~ Inorganic
Chemistry of the AS Uk-rSSR, Labora-tory in Odessa)
SUBMITTED: April 6, 1959
Ta6iiPrits 2
onpeAexe mwe TeAAYVA: 9 nPICYTOrs"M
Apyrux exemelffos
V
B3RTo Te, eHo,
"I
AoIu H&AAeH0
I 1z I
10 Se-1 11
10 Se-10 10
20 As(V)-0,2 21
20 Au-0.05 20
10 BI-0 1 10.5
20 BI-0:5 20
40 Fe(111)-0,05 40
At-0,05
Legend to Table 2.- 1: weighed portion Te,
y; 2: admixture, mg; 3: value found. This
lecture was delivered at the Section of
Analytical Chemistry of the VIII Mendeleyev
Congress on General and Applied C~er-istry.
Card 3/3
"j IV14
T'T?-0bO JL131
AUTILORSt Shustova, M. B., 11azarenko, V. A.
-Wonsdow-
TITLEs Analysis of Pure Metals. Determination of Vanadium
Impurities in Titanium
PERIODICAM Zavodakaya laborateriyav 1960, Vol. 26, No. 12, up. 1339-11341
TEM In the present *Duper, tile use of a .-iothod of determlninC vanadium
quantities of lees than one microgram (Ref. 1), which is baued upon the
catalytic acceleration of the an1linu oxidation by potassiur, chlorate in
the presence of oxine as activator (Ref. 2), is demonstrated by determin-
ing microquantitiee of vanadiur, in titanium. Under the condi.4ors mentioned,
the solution becomes yellowioh-brrwn In the pr&~,enci., of vant-dium, while
otherwise the solution is light-yellow. T',.o i;,Anitivity of the reiction iG
increased by heating, but after it lorijor poriod of i.(-:!itine, d1m aolutir);11"
are formed, which cannot be photometrized. The reaction product maY be
extracted by means of organic colvents (eth,fl or amyl acetate.,-, locamyl
alcohol), in which cafe the extracts are brownish-red. Di:rir.17
of tile reaction productj, the dotection limit i!; O.O1r-var.,-.d!um in 100 ml
Card 1/3
87704
Analysis of Pure Mqtaln. of
Vanadium Impurities in Titjn4Ur,
solution (maximum dilution 1 1010). The liE;ht absor~?tion --f 'he
ethyl acetate extract!; obtained in the manrj,--r (leacrib-1 i,-. ", -~~ ,.-A
presence of 0.2rV are given in Fio. 1. They r-jcc~rdod at 't.o
wave length of 390 m~k . FIL;. ~~ shows the dependence of th,-
of the extracts on the juantity of vanadium durin,- in rol,itIc'n
to the ethyl acetate by meann of the opc-c tropi~c t ter -4 (SF-4) at
390 m~4 and by means of the horl-,ontal photor.-,~,t~r 1;/,- 0
/ ~19!
liGht filter Mr--47 (M.S-47) at 465 mt4. Lart-cr -r,tant1Jtj,-,,; ~,f ~-'f
distulb, becaune th,,~y Wnd ~x-Jnr-; in junntif!r?s ~;f up tc 1,00,-, 'ilariun
may be masked by the addition of arimonium tar,t2-itc.. In thfir ("ns, the
sensitivity is reduced to one fifth. UP tc 500d- iron mity ho zn,,,,7~ed b
,Y t
addition of pyrophoophate without dl,~;*urbirC; platinum Joc.-7 rot
dic furb . T he ho st re !it i I ts A tainod I n the ex t rr~ c t I on it i U i I
alcohol. In this case vanadium c.'111 b" (1111111titati'lk:ly at 141,1;.
Here, tinnonium tartrate however, be added, whirh binds: 'i't-nium to
a compl~tx; oth(-riji!io, th- lattotr I:i j,r-,Yc1j,',tated. Ti.o ret;ultt, othtr.inA :hr-,w
that by f,!A~; method up !,e) r 11,14
~.10- / V In 0.1 1; t1ttiniu::, may to di,l,,vr..~nott
(Table). Thr, method is not suited ff,~r analysis of ,illicl. cont"Linv,
some tenths or hundredtnq cf molybdenum. Molybder,,.~m in juantitiet3 lower than
Card 2/3
37704
Analysis of Pure Teti13. :,72 ~-r '01~ 'Cl'-/G,07"07~
Vanadium Impurities in Titnniur. C
0.001% does not disturb the determination of vanadium. There are 2 ficures,
1 table, and. 7 referencess 4 Soviet, 1 Auitriar., and 2 Japanese.
ASSOCIATIONt Institut obshchey i neorE;anicheskoy khimii Akademii nauk USSR
(Institute of General and Inorganic Chemistry of the Academy
of Sciences of the UkrSSR)
Card 3/3
NAZARENKO. V. A
"The analysis of high-purity substances"
report to be submitted for the Intl. Sy-nposium on Pure Substances in Science
and Technology, E. German Chem. Soc. Dresden, E. Germany
30 November-2 December 1961
f
Py"IZE I WOX EXPLOiTATION SOV/5777
Vinogradov, A. P., Acadcinician, and D. 1. Ryabehikov, Doctor of
Chemical Sciences, ProfessorReop. Eds.
t:atody opredelenlya I analiza rcdkikh eler,,mtov (,".Cthods for the
D2tectlon and Analy3io of Rara Elc,-.cntD) loucow, Izd-vo fN SSSR,
1961. 667 p. Errata slip In3crted. 6000 copies printed.
oponaoring Aaency: Aktdcnlya nauk 355R. Inatitut geokbimil I
analitichaskoy khimil in. V. 1. Vornadalcogo.
Ed. of Publishing House: 11. P. Volyneta; Toch. Ed.: 0. Gualkova.
PURPOSE: This book is Intendod for analytical chemists and for
students of analytical chemistry.
COVERAGE: The handbook was published In accordance with a decision
of the Vaesoyuznoye soveshchanlye po analizu rcdkikh clementov
(All-Union Conference on the Analysis of Rare Elements) called
X_v*_t?,5
Methodr for the Datectiort (Cont. SOV/57T7
torether by the Gooudarztvennyy nauchno-tekhnicheskly kcnitet
Soveta Un13trov 3SSR (Statc Scientific and Tec.~inical Cc=ilttee
of the Council of rUniotera of the USSR) and the Aca(!cny of
Sciences USSR InTacenbor, 1959. The material in arrangod In
accordance with the group po3J.tion of elements in the periodic
system, and each section is prefaced by an article diBcuzsing
the analytical methoda mozt used in the Soviet and non-Soviet
countries. Each nection deals with the physical, phyaicochcnical,
and chemical methods for the analynia of raw materials, ceni-
products, and pure motala, and io accompanied by an extensive
bibliography listing works publiched in the field In recent years.
The following are mentioned for their help In preparing the book
for publication: 1. P. Alinarin, G. N. Billmovich, A. Z. Busev,
E. Yo. Vaynshteyn, M. P. Volynet3, V. G. Goryuahina, A. M. Dymov,
S. V. Yelinuon, 0. Ye. Zvyneintsev, 0. M. F41osova, Yo. K.
Korchemnaya, V. 1. 14bedev, 0, A. flalofeyeva, B. 11. 1,11clentlyev,
V, A. Nazarenko, I. I. Nazarenko, T, V, Petrova, 11. S. Poluektov,
A. I. Ponomarev, V. A. HyabukhIn, N. 3. Stroganova, and Yu. A.
Chernikhov.
Card 2/5
for the D.-toction (cort. ) -'0'1/5777
Yanarcnlco, V. A. Pro-,cnt Stato of tlo Analytical Chomiatry of
; ~ -- I I U,-. 1 400
Zolotavin, V. L. Nveacnt State of tho Analytical Chemistry of
Vana,diu;:i 462
Allmarjn, 1. P. , vnd 0. M. Bilimovich. Prczent State of the
Analytical Chemistrl of Tantalum and Niobium 487
Euzcv, A. 1. Present State of the Analytical Chemistry of
l'olybd=u.-a 537
Troitz;kaya, 1.1. 1. Prz!zent State of the Analytical Chemistry of
Selenium and Tellurium 580
Ryabchilcov, D. I., and Yu. B. Gorlit. Present State of the
Analy;lcal Chomi3try of Rhenium 628
AVAILABLE: Library of Conerosa
Card 5/5 12-1-61
ALIMARINO I.P.0- BILT14OVICHO G.N.; BUSUp A.I.; VAYNSHTEYN, E.Ye.; VOLYNETS,
M.Pe; GMUUSHINAg V.G.; DYMOV, A.M.; YELINSON9 S.V.; ZVYAGINTSEVt
O.Te.; KOWSOVA9 G.H.; KORCfMAYA, Ye.K.; 17 EV, V.I.; KATDFEMA,
G.A.; HELENTOYEV, B.N.; NZARINKO p. -V.A.;. NAZAREUKO# I.I.; FEIROVAI T.V.;
POLUMOV9 H.S.; PONOMARZV, A.I.; EXABUKHIN, V.A.; STROGANOVAp N.S.;
CHERNIKKOV, 1u.A.; VINOGRADOV, A.P., akadena, otv. red.; EXABCPIKOV,
D.I., doktor khim. nauk, prof., otv. red,; GUSIKOVA, 0.9 tekbn. red.
(Methods for the determination and analysis of rare elemental Metody
opredeleniia i anallza redkikh elementov. Moskva, 1961. 667
(MIRA 14P:7)
1. Akademiya nauk SSSR. Institut gookhimii i analiticheskoy khimii.
Netalst Rare and minor)
A 160/Al 01
AUTHORS: Nazarenko, V. A. ; "Jhur,,ova, M. 5.
TITLE: Determination of tantalum In lean ores by nolor-Iretric
PMTODICAL; Referativnyy zhurnal, Met;illurg~ya, NO. 3, 196?, 3,
("KhIm., fiz.-khim. I spektr. metody losled. rud I
elementov", Moscow, (josgeoltekhizdat, 1961. 8,-~ - ()i)
d -
TCCT: it has been established that. all trioxyfluoron devivatlv--~.3 ue
used as reagents for Ta, yet the most sensitive and specific one of thf!,-,
9-paradimethyl aminophenyl-2, 3, 7-trioxy-6-fluoron, called dimethyl fluoron
W. The initial Ta water-baze solution is evaporated to dryn.--ss in a
The radical Is subjected to a slight calcinatlon, creatod tdth 2 ml MP, ova-j'orat-
ad to dryno&s, supplemented with 20 in). (-)I' it 1,5 1% H31Y) , thon aFaln evapur.-it,cd ~()
dryness. Then it is melted at 500 - 600oc, suppiemdted wIth'5 6 K per5~,ifa,e
and fused with it at 600 - 6500c. Tho melt Is dissolved in 2.5 ml of* a 4 ~,
H2C204, transferred into a 50 ml flask, neutralized for,4, '-dinitropnerol with the
aid of I norrrAl KOH solution until tho appearancu of a sll&tly ii,)Llceable yellow
Card 1/3
S I i
Determination of tantalum In A160/A101
color. Then the composition is :~upplemcr,Li~d w1th 12-5 ril of 2 nor_%;
the flask Is filled with water up to mark. The a.Liquot part of ti.,.
containing 5 - 50_~'Ta, is pu, Into a colorimetrlc test tubc-, wheri-,q,on Ia',~cc
Is filled to 10 ml with a solution for dilution (10 gr H Bo- I- fu7t,d
wi'~h K pyrosulfate. The melt obtained is dissolved in ~5 1311 of a 14 r~,
diluted with water, neutralized wlLh I normal KOH sol--;tion, a.i deL~-;T`w-6
then supplemented wiLh 25 ml of' 2 rior-rial 11C1. and filled witii wate-
of 1 ml of an 1 % gelatin soiation, and intermixed. Thc-,0.4 of
solution (I) iz added and the content J a inter-mixed agaii., af ~(,,r %t ifl-
tube has been plugged with cork. Now the teot tube is 1mvr:-,,_-d for r.'~11
into boiling water, thcr, lcf't In not vater to ccjjl off' wijorfoipor. i f,
alollo to develop colov. fin amoun, u1, 0.5 MI. H,)OP 115 added, the
zhaked-up, and the intenuity of noloraL.1--ii 11:j dctermir,od I
530 1,114, or using a gre~-.r, light filter, for the closed tcrt (10 ivil
I ini gelatin and 0.4 mil of the nolution (1)). DQterm.1nation
-out erith the ure of callbral(,a ij-aphs. '7a wao rsepara~-_-d frrDm arid
concomitant elements by preciplLaLtng ~.-,rth "aclda" with 1.;Lnj,,i,,
Card 2/3
S/137/62/000/003/17~4,'I
DeterminatIon of' tantal.un In lear, A1601A101
'~S04 and by extracting the Ta fluoro-complex with a mixture of acelon._.-
butanol, adding some WIL02SG4. For analyzing metallic i1b and Nb-rIch or.:5.
was made of an additional precipitation of Ta from an 0.1 normal HCI ozala'L.e E-
lution contalning K pyro~;ulfate, with the aid of (I). The sensItIvity of de-
termination of Ta was 0.001
N. Gertsev%.
[Abstractors note: Complete translation]
Card 3/3
3/137/62/ooo/ool/225/237
A154/A1Ol
AUTHOR: LNazarenko, V. A.
TITLE: The present state of the analytical chemistry of germanium
PERIODICALs Reforativnyy zhurnal, Metallurglya, no. 1, 1962, 8, abstract IK52
(V ab. "Metody opredelonlya I analiza redk. elementov". Moscow,
AN sssR, ig6i, 4oo- 4,60
TEXT: This review describes methods for the foilowing: Spectral deter-
mination of low contents of Ge In silicate rocks; quantitative spectrographic
determination of Go In oxide Fe-ores and coal ashes; polarographio d6termination
of Go; photometric determination of Go with phanylfluorone; alkalimetric
determination of Ge in industrial concentrates; spectral determination of Cie
In the ashes of mineral coals; spectral determination of 31, F40 Al, Sn and Sb
In Ge and Its dioxide; radloactivation determination of admixtures In rare-
earth elements, Sb, Mo, Cu and Zn in Ge; neutro-activation determination of
micro-admixtures of Cu. Zn, Mn, Sb, In, Ga, Au in Go with the aid of scintilla-
tion ?-spectrometry. Chemical determination of admixtures In germanium diorlde
CaM 1/2
S/137/62/000/001/225/237
The present state of the analytical ... A154/AIOI
and metallio 06; o6cillographic determination of admixtures of Cu, Pb, Zn, NI,
Fe and Ag in high-purity metallic Ge. There are 310 references.
I. Golubeva
[Abstracter's note: Complete translation]
Card 2/2
5/032/61/027/001/002/037
B0170054
AUTHORS: Nazarenko, V. A. and Shuntova, K. B,
~.-. -~ '-', -1, - '.
TITLE: Determination of Iodine Hioroimpurities in Elementary
Silicon
PERIODICAL: Zavodakaya laboratoriya, 1961, Vol. 27, No. 1, PP- 15-16
TEXT: A method was developed to determine iodine microimpurities in
silicon. The impurities are extracted with benzene after oxidation of the
iodide to elementary iodine. The course of analysis is indicated: 1 or
0.5 9 of finely ground silicon is dissolved in a 20-m1 3 N sodium
hydroxide solution which is heated simultaneously. 5 ml of sulfuric acid
1:1 is added to the solution, and water is added until an amount of 150 ml
is reached. The sample is placed in a sepa-rating funnel, mixed with sodium
nitrite, and twice extracted with benzene. The iodine content is determined
colorimetrically. Results are given in a table. By this method it 1 8
possible to determine 0-5 r of iodine in 1 g of silicon, i.e., 5 . 10-5%.
This method is mainly intended for semiconductor silicon which contains
small iodine impurities after production by the iodide method. There is 1
Card 1/2
Datermination of Iodine Microimpurities 3/032 61/027/001/002/037
in Elementary Silicon B017YB054
table.
ASSOCIATION: Institut obahchey i neorganicheskoy khimii Akademii nauk
USSR (Institute of General and Inorganic Chemistry, Academy
of Sciences UkrSSR)
Card 2/2
NA FLYANTIEW... G.V.
,-UL=
Complex compounds of germanium with chloranilic acid.
2hur.neorg.kh1m. 7 no.10:2335-2339 0 162. (MIRA 15:10)
1. Institut obahchey i neorganixhesko:! khimii AN UkrSSR*
(Germaniun compounds) (Benzoquinone)
NAZAMKO, V.A.
I
chemistry,,,
0Zhur.anal.khim. 16
"Organic reagehts~ in analytical
no.5:65-5-656 3-0 'fl. (MIRA 14:9)
1 ! (Chemistry, Analytical)
f
i
I
I i
4 A,
II I
5103 6!/027/G'1/--C
B1 06X1 10
AUTDRSt Nazare_n_kg,,.-V- A--, and Flyantikova, G
TITLEt Determination of iron microquantities in indium ani
PERIODICALt Zavodskaya laboratoriya, v 27, no 11, 0961, 1339-34!
TEXT tTwo methods of det-'~rmining iron microquantities in metai,i- indiim,
and gallium are described in this paper. In the analysis of ir:n
trichloride is extracted from the 7 N hydrochloric solution of the weiChed.
sample by diisopropylether After evaporation of ether, iron iu
colorimetrically determined, The rhodanide method cannot be applied in
this case since indium chloride is part1v extracted together with
diisopropyl ether and would thug disturb the colorimetric determinaticr, -f
iron in the form of rhodanide. The colorimetric iron 4et(-rr-.1n!Aio,,. 1.,3,
therefore, c,.)nducted on the basio of a red, complex catijn whici.,
with orthophenanthroline, forms bivalent iron- The residue
et~,er evaporation is dissolved in 1 11 hydrochloric acid, and m.~xed -r",
biphthalate buffer solution (PH 3), a 10/4 solution of hydroxylamine
hydro,;hloride, a 0-5/6 aqueous solution of orthophenanthroiine, and a 2.~5 1.1
Card 1/3
l',3/032/6-,/027/01 1 /3'
Dotormln4tJon of iron m1oroy4antition B106/131 10
solution of sodium or lithium perchlorate. Perchlorate of the iron
orthophenanthroline complex forms and is extracted with nitrcbenzene
pink coloring of the eytract is compared with that of a number
nolutiotri produced simultaneously and in the same mai.n-ir-
curinot be uzued for determining iron in metallic galli ~im riin ,o
conditions, gallium chloride is a1sr, extracted considerat.y
of metallic gallium, iron is extracted from the 5 `.' hyirc.:.-.'-nr1- E
of the weighed sample with an isonitroso-phenyl-~.y4-roxylaml.n,?
chloroform, Iron is not extracted from 7 N or higher h.' ~drochinri:
tions The extract containing Iron as cupferronate io avaporatel
the -,upferronate is then decomposed by concentrated s,,;lfuri a -, ~nl,
perhydrc! The residue is again treated wit'r. perhydrc'-,
dryne3s, dissolved in 1 N hydro~-hloric acid, and mixed with a 25A sc,,.':c:~
cf potassium rhodanide After mixing, extra:,tiuri -sit). is%;amyl
.onducted, The coloring of the extract is compured witii 'hat cf ~L ne."
of standard solutions obtained simultaneously and in the same mar-ner
Senaiti-,,izy and accuraLy of the two above methods Frc-.'ed tc te :;at,sfa-*'.--,
5% r,7,
The methods allow a determin4tion of 2,10
'I i n C,
Card 21.5
S/032/61/027/011/00'/-,''
De~ermination of iron microquantitiev B106/B110
e "~i 11 11:'~ Requirement for thi3 sensitivity of determinaticrit purit-' -f all
~i V-hic,h, in a bland teat, must not cintain more than a totd! -f
f i r -) z, ThQre are 1 tL~.tle a,.d I rion-Soviet reference. Tile
reiert-~n~-e to the EnClish-laneuc.ge publication reads aa foliow!,s D W.
C. V BLriks, Anal. Chem., 26, 200 (1954).
ASSOCIATIO111i Institut. obshchey i neorganicheskoy khimii Akaiemil, nwik
USSR (Institute of General and Inorganic Chemistry -~f 'he
Academy of Sciences UkrSSR)
lard 3/3
5/078J62/007/012/010/022
B14410180
AUTHORS- Hazarenkol V. A-s Lebedeva, N. Y.# Biryuk, Ye. A., Shustova,M.B.
TITLE: Complex compounds of multivalence metals with trioxyfluorones
PERIODICAL: Zhurnal neorganichookoy khimii, Y- 7# no. 12, 1962, 2731-2738
TEXT. The complex formation between Geo 2' 4rO C12 or SbCl3and phenyl
fluorone and between Sc 2(SO4)3and propyl fluorone was studied spectro--
scopically in acid media after stabilivation with gelatins to ascertain
whether the metal ion substitutes two H atoms 'in the diphenol or one H atom
in the o-hydroxyquinane. A now scheme, based -on the solubility productq
is given fGr the evaluation of the speotrophotometric data; this was
iieceseary because of the low solubility of the complexes. The complex
formation with Zr was studied in 0.2 - 0.8 N HCl and showed that only a
1:2 complex forms (optimum 0.2 - 0.3 N HCI). This was confirmed by both
the isomolar series and the molar ratios. The Zr complex is thus
consistent with other Me IV trihydroxy fluorone complexes. A study of the
change in optical density as a function of the pH showed that only one R
Card 1/2
3/07 62/007/012/010/022
Complex compounds of multivalence B144 180
YB
atom is substituted, namely, at C7 of the phenol group, and that a donor-
acceptor bond is established with the quinone oxygen at C with formation
6
of a 5-membered ring. There are 7 figures and 4 tables.
SUBMITTED: February 26, 1962
Card 2/2
9/07 62/0213/002/006/oo6
BI 01 X31 10
AUTHORS: Nazarenko' V. A#, Flyantikova, G. V., Lebede7a, N. V.
TITLE: Ionic state of (,ermaniura in weekly acid solutions
i'ERIODICAL. Ukrainskiy kbimichesiiy ',,.hurrial, v. 26, Ti o . 2 , I 'f62, 266-267
TEXT: The rani;e of existence of Uermaniufn cation3 in -v(,zL!--.1y acid solut;.ona
was studied. Experiments were conducted with electromilration and by
determining the germanium content in the electrolyte with disulfo phenyl
fluorone. 0.001 moles Of Ge02 nolutiono in a buffer solution (glycocol,
biphthalate, veronal which do not form complexo3 with Ge) were filled into
a V-shaped tube with sealed-in platinum electrodoo. The upper tube ahaft
was filled with the same electrolyte but without re. Voltage was varied
betveen 30 and 210 v at a constant amperage of 15 ma. Electrolyuio took
60 min. Then, the Ge content both in the catholyte and in the anolyte was
determined. In order to take diffusion into account, blan~c tests without
current were conducted. Roaulta:
Card 1/2
S/073/62/028/002/006/006
Ionic state of germanium in B101/B110
Go Gulml)
:)H in catholyte I in anolyte blank test
>7 - !only in anolyte
6.tj3 4.9 6.1 0.)
5.05 1.6 5.0 0.7
3.12 7.7 7.5 1.0
2.32 4.4 3.6 1.1
I . 00 1.5 (). .1
Contrary to published data, weakly acid golutiono cont,lined jerranium
cations in addition to the anion3 of t;ermanic acidq. Their presence
explains many analytical reactions of Ge and also their similarity to reac-
tiono of othor metals of Group IV of the Periodic Sycten.. There are
1 f i6rure and I table. The most important English-lanjuaCe reference ia:
D. A. Evereut, J. E. Salmon, J. Chem. Soc., 2438 (1954).
ASSOCIATION: Inatitut obolichoy i noorganicheskoy khiriii All USSR,
laboratoriya v OdusGe (Inatituto of General and Inorganic
Chemistry AS UkrSSR, Laboratory in Odessa)
UBN'IW.mvD- September 10, 1960
ra ~2" '
K
NAZAREWO, V.A.; LEBEDEVA, N.V.
Determination of' tin in poor ores Ly p-n~trophenjlfluorcre.
Zav.laL. 28 no.3t263-271 162. (KILRA 15:4)
1. Instivit o6ilichey i neorganicheikoy khimii Ali USSR.
(Tin--Analy sis) (Xanthenone)
S/03?
'162102aloO410021026
B101/B144
Nazarenko, V. A., and Biryuk, Ye. A.
TITLE: Determination of scandium by propyl fluoron
P--'RIODICAL: Zavodokaya laboratoriya, v. 28, no. 4, 1962, 401-406
TEXT: 'A photometric method is described for deternining amounts of tip to
0.0002', Sc in silicates, tung9titea, zirconatesp coal ashes, and casoi-
terite slags. Silicates and aahes are decomposed in HF + H 2so4 (1:1.);
tungotites, by melting with NaO11; casaiteriten, by melting with Ila 2C)"
and zircons with KF 2- If Th and Zr are present in large amounts, they are
precipitated as iodates. Alkaline melts are dissolved in 6 V HC1. Sc is
separated from accompanying elements by precipitation with KOH in the
presence of H202 , Fe is used aa collector, and then extracted by other in
hydrochloric acid solution. Subsequently, So io precipitated as tartrate
in the presence of Y 0 The precipitate is dissolved in HC1; ammonium
2 3*
Card 1/2
3/032/62/028/004/002/026
Determination of scandium ... B101/B144
thiocyanate is added; Sc is extracted with ether, re-extracted with 1fc),
ev a po rate (I ;the roniduo is calcinod, trontod with aqua regin, und dissol'vd
in hydrochloric acid. '33mall amounts of disturbing elemonto still pre!lent
are maskedt Th, Zr, Al by acetyl acetone, Fe by orthophenanthroline and
ascorbic acid. After adding an alcoholic solution of propyl fluoron So
is determined by an cl-4 (SF-4 spectropho tome ter or an Vlc_-56 (i;s"S-56)
photoneter at 530 mil, or by an .,, - -'1, (FEK-M) photocolorimeter and rrnen
light filter on the basis of a calibration curve. A radiometric oon~rol
with Sc46 proved the dependability of the method. Microamounto of So are
quantitatively precipitated as tartrate from a small solution volume
(1-5 ml), also without addition of Y 203' There are 2 figures, 4 tables,
hnd 9 referencest 4 Soviet and 5 non-Soviet. The reference to the Eng-
lish-language publication reads as followss D F Pe5pard, G. W. Mason,.
J. L. Maier, J. Inorg. and Nuol. Chem., 3, 215: 6956
ASSOCIATION: Institut obahchey i neorganicheskoy khimii Akademii nauk
USSR (Institute of General and Inorganic Chemistry of the
Academy of Sciences UkrSSR)
Card 2/2
NAZARENKO, V.A.; 311STOVA, M.B.; RAVITS.KAIA, lli.V.; NIKONOVA, "I.P.
Daterirdnation of calcluzu, alumi=m, and chrumi-im in
anti-moni. Zav.lab. 23 no 5:537-531 162, (MIRA 15:Q)
1. IntitAtfit -Amhaiioiy I ri~'till A': ll.*~:;A.
(Aritimony-ittial.folH) 1
7 2/'2/r,26/
tarova, 0. G. ,
3 Ll.,. a ,
t 4 Gn Of
ctcr;,-na 'Uri ti,~S
r. t i t n um
--VO a 2,-,, no. 0, - -62,
T h -otor;:,inaticn of the c, f Ta, ~,!, P,
4 r, -4 v.-ith an accuracy of -.,3 -10 :; c - 1-3 c d
c lolc -.' n c d ::,a tn~, u
etrically d rm z.,- i n
Orono
C 0 an 1 b N aft,~r extractior as L fl'.;3r4-:e c c):-- I
t c n r; - i a n o I m ix t u e is
C and - as ac-'d af'cr i~xtr~.c,-3r.
C71 C, otas3ium ierio4~~ts~
1 3
n t- c- form of -liethyl dithiocar"a.-Am-itc. IrGr, is c:ctur7.~nc-"' ccjlcr~
as tlaiocyanate after cxtr"ction of the ox4nate (~ ~-.l Ir,
in 1 :. CF using chloroform in thG prozence Of ~',C, at
':ickcl is --olorizetrically dot-~rmin,~d -vvith after
.ard 1/2
of ir..7,uritic:s ...
v:,-tract--on of 'he dimat..-yl ~Iyoxilmatia v:4-th, f t c r c c
ti t;inium cu-)f err on a to th CHO 13 the contents of
are detor.-..in-:~d. is fluoro-ctricall:
Chro.--4um Js colorim
bl-~C:-. 2
an acelcne solu'ion of d--,henyl C
-~nC a zolution of erioc-ro.-ne black 3 Jn (4)
ter=.n~-.d as -)ho~iphorus molybdenum blue extracted
u r t i r. z. io,.7.inE no vQlatile com-)o-,ind's e . t,7i &rc d o torzinc d i. f
t'-c- oil Ti in the form of TiOl Thoi-e is 1 t a-. 1 e
obs-choy i ncorr-nic-o3koy
U.3---2 (Instituto of GEn~;zral an~ InorE.-anic Che%.J.-~try cf th,:
Academy of Scicnces UkrL.;2)
L/0,7~ 2/6 2/02 1"/0 S 11102
:31 " C/B 01
V. I., and ~Ioluc:,.-tova, ze.
of zircGniu:~: ir,
Dentoxidc
la"oratoriya, v. 26, no.
.-Iho t t--i c de te rmin,,-, tion o f 0 . GO r i r, i s c arr o i
-o.- th ro u i, h r e c i p i t o r.
C; in,~; tre z-rconiu- f. , the niob-
zn the nresence of 0 ~,he nio,--A-u-. remains disoo~vcd i-
2 2'
o f r n i o3r. t e . :ron hydroxidle is uqr--d1 as a co' lector. T` p 0 C r, t
v:-4th -,hcnyl fluoro-,e in an 0.2 - 0.3 N .':01
2 f"Gli which :)revente4 t-o preci-jitation of z,' rc or. u,--.i
--L~ v o
fluoronate. - h c s o I u o n a s s t a b i 1 i -, e d .,; i t- t-, c. 1 a t in . n
m,, t h e o p t 'I ca I -I e n E; i ty D i a a 14 ncrr function of the anount of
con u,:, ba'-.-.-ocn 0 and 50 vg. Ls trivalcnt iron int~JrfC-ILZ 71J. t.. -t
it -.-las reduced to bivalent iron by uzinc tl~iogljcolic acid.
T*,'-~rc iz 1 table.
V2
0 72,,(-,2/ 028/3~,61,:
De t a tion of zirconium BI 10/, B0 1
.~,3 C, IA '2 1 C,.,; Inatitut, obshch-ay i nc~or,!,,-.nic~ es--~oy
(Institute of General and inorEanic ' he.-,istry ol'
Academy oil ~;cicncc3 UkrL--'.1)
-12
NAZARENNO, V. A.; VINKOVETSKAYA, S. Ta.; RAVITSKAYA, R. V.
Fluorimetric determination of trace awunts of galli= in semi-
conductor silicon and high purity zinc. Ukr. khim. shur. 28
no.6:726-728 162. (MIRA 15,10)
1. Instit~t obahchey i neorganicheskoy khimdi AN UkrSSR, laborn-
torit 7 Odesse.
(Gmllium-Analysie) (Silicon--Analyeia)
(Zinc-Analysis)
MAZAREUOP V. A.; KMtEMM, I. H.
Basic problem of development of amlYtical chemist Zav*
lab. 28 no.12914-U-1413 162. (KrPA 16: IT
(Chemistry,, Analytical)
I % . IJF 'I A r"I A, i-!.
N A ZIVIENIKO
Trihydroxyf 1,iror- j,,n I MIR A 17
21-21. 163.
UZARMOg V.A.
Ilso of oxtritatiom rai- (=ootLs Or 01(--,Qt4t0-
. Trudy Kom.anal.kMm. 14.0-10 '63. (IMA 16311)
L 18496-63 - ZPF(n)-2/tW(q)/EWr(m)/BDS AMC/SM PU-4 J
ACCZSSION Nat: AP3007374 S / 0 18 6 / 6 3 / 0 0 5 / 0 0 4~1~4 "97 rd~RXMY/
9 JG
AUTHOR: Nazarenko, V. A.; Biryuk, Ye. A.; Poluektova, Ye. N.
%_ 170
TITLE: Separation of small amounts of thorium r1om rare earth
111-clements, tron, and alumin on an ion-_e_x_cFa-nge resin containing a -
sorbed rearcn tjj OU-7
SOURCE: Rndiokhimiya, v. 5, no. 4, 1963, 497-499
TOPIC TAGS: ion exchange, ion exchange resin, ion exchanger. thorium.
rare earth metals, iron, aluminum, anion exchange, anion-exchanging
substances, anion exchanger, anion exchange resin, AV-17, AV-17
anioi exchanger, AV-17 anion exchange resin, toron, benzenearsonic
acid. 0-(2-hydroyy-3,6-disulfo-l-naphthylazo)-, 2-naphthol-3,6-
disulfonic acid. 1-(o-arsonophenylazo)-, cation exchange, cation ex-
changer, reverse anion exchanger, thorium determination, thorium
separation, thorium isolation, yttriun, europium, promethium, yttrium
oxidt, La203, aluminum chloride
ABSTRACT: A study has been made of the separation of Th from rare-
earth elements, Fe, and Al by the selective adsorption of Th ions
1/3
L 18496-63
ACCESSON HR: AP3001374
on AV-17 anion exchang-ir (made from styrene, divinylbencene, and
trimethylamLne (see: Z' 'I. f. kh., v. 36. no. 11, Nov 1962, 2465-
2468)) treated with "toron" (1-(o-arsonophettylazo)-2-naphthol-
3,6-disulfonic acid) to form a "reverse anion exchanger" which acts
as a cation exchanger toward Th only. A "reverse anion exchanger"
is defined *s one treated with an organic compound containing both
a group reacting selectively with the Lon to be separated, and an
acid group (preferably a sulfo group) for attachment to the origin-
nPlanion exchanger. Separation of Th was carried out in a glass
column 20-25 cn long and 0.8 cm in diameter. Three grams of AV-17
anion exchanger (pretreated with water and an alkali) was placed
in the glass column, treated with a 0.5% toron solution, and washed
with water. The Th-containing influent (20-30 ral), acidIfied with
0.2 g ascorbic acid (to an acidity equivalent to 0.05 N HC1), was
passed through the column at a rate of 0.5 nl/min. The adsorbed
Th was than eluted with 1 N IICl. The amount of Th so separited was
determined by the spectrophotometric method (V. 1. Kuznctsov, ZhO'Kh,
13, 914 (1944); S. B. Savvin, DAII SSSR, 127, 6, 1231 (1959)). After
elution the anion exchanger nay be used again without additional
treatment with toron. Microquantities of Th (down to 1 X 10-4%)
Card 23
L 1849"3
ACCESSION NR! AP3007374
may be separated and determined in the presence of rare earths, Al,
and re by this method. The behavior of Y, Eu, Pm, and Fe on the
AV-17 "reverse anion exchanper" under the conditions described was
also studied, using Y91, Eu 2, Eu'54, Pm'47, Fess, and Fe". Tabulated
data on the radioactivity of the tolutions before and after they
were passed through the column show that these elements are not ad-
sorbed by the anion exchanger. The method described was used to
determine Th in Y 0 . La 1'3.1 total rare-earthchlorides, and AlCl 3-
Orig. art. has: I ormu a nd 3 tables.
ASSOCIATION: none
SUBMITTED: O8Sep62 DATE ACQ: 07Oct63 ENCL: 00
SUB CODE: CH NO REF SOV: 003 OTHER: 000
Card 3 / 3
V.A.; FLYAHTIKOVA, G.V.
,IAZA=IKOO - - I
Composition and ionization constants of complex polyol
germanic acids. Zhur. neorg. khim, 8 no.6:1370-117'7 Je 163.
(MIRA 16:6)
1. Institut obshchey I neorganicheakoy khir-ii All UkrSSR,
laboratorii v Odesse.
(Germanic acid) (Ionization)
HAZARENW, V.A.; FLYANTIKOVA, G.V.
Instability constants )f dipolyologermnium complexes. Zhur.
neorg. khim. 8 no.10:2271-2275 0 163. (MIRA 16t10)
1. Institut obshchey i neorganicheskoy khinii AN UkrSSR.
(G6rmanlum compounds) (Alcohols)
ANDRIAMOVo A.M,; NUAW
Ionization constants of tripyrocatechol-germanic and tripyrogallol-
germanic acids. Zhur. neorg. khim. 8 no.10:2276-2280 0 163.
(KIRA 16:10)
1. Institut obahchey i noorganichaskoy khinii AN UkrSSR.
(Germanic acid) (Complex compounds) (Ionization)
ANDRIANOVO A.M.; HAZARENKO, V.A.
InstabiUty constants of tripyrocatechol-gernanic and
tripyroganol-germanto compounds. Zhur. neorg. khim. 8 no.10t
2281-2284 0 163, (MM 16slO)
1. Institut obahchey i neorganicheskoy khimii Ali UkrSSR.
(Germanium compounds) (Pyrocatechol) (Pyrogallol)
L I Zk(61.t6
ACC:=Ce'l 1111s AP3004944 B/0075/63/01 S/Crae/C* 64AM I
AUMtSl Shufftovat X. B.; Nazarenko, V. A._
TMUZ a Trihydroxyfluoronee as reagents for photometric determination of m-olyb-
denu=
SOURCMs Zhurnal analiticheskoy khimiit v., 16, no. 8, 1963t 964-971
TOPIC TAOSt trihydroryfluorone , photometric determination, molybdenum
ABV- FUIWI : In order to select the best trihydroxyfluorone as a reagent for photo-
metrl,~ determination of molybdenum, apnroximately 20 compounds of this group were
studied. Indicatione were that all the trihydroxyfluorones can be use& as reag-
ents for this purpose. o-Nitropheny1fluorcne is the best. The ccmplexing be.-
ween tolybdenum and tribydroxyfluorones was studied. At pff equal to or greater
than I complexes-are formed with ratio 11o t A -2! 1 t 1; &t higher acidity the ratio
is 1 5 2o It was established thAtt during formation of propylfluorone complex
1 1 1, a" molybdenum Ion replacea one hydruSen atom in the reagent molecule.
Orig. art. hast 3 tvables, 5 figures.
Card i/2
L WL67-~)3
ACCMSIOII YPs AP1004944
A.ASOCIATI"ONs Inatitut obahchey i reorgp-nicheak(-y khimii XX MSR laboratoriiv
Cdesee t in2joydc chard stry, AdaderV of sciences,
,Invtitute of general and
Odesoa laboretory)
M =01 22oct62 DiTr. AC(;j o6sep63 Er-CD 00
-CH NO M-F S071 005 CTHERt 006
NAZARENKOP V.A.; VINAROVA, L.I.
Pyrocatechol violet as a reagent for germani-,Lm. &ur. anal. khim. 18
no.10:1217-1221 0 163* (MA 161l2)
1. Institute of General and Inorganic Chemistry, Academy of
Sciences Ukrainian S.S.R., Laboratorins in Odessa.
S/073/63/029/w2/003/cc-6
A057/A126
AUTHORS: Nazarenko, V. A., Birjuk, Ye. A.
TITLE: Arsenazo I as reagent for the photometric determination of scandium
PERIODICAL: Ukrainskiy khimicheskiy zhurnal, v. 29, no. 2, 1963, 198 - -'o);
TEYT: The reagent arsenazo I was first described by V. 1. Kuznetsov (DAN,
v. 31, 1941, 895) for the determination of uranium and rare earths. The present
authors investigated this reagent for photometric determination of scandium in
some natural and technical materials. The optimum PH was found to be 7.9 and was
maintained by a borate buffer In further studies. The maximum light absorption of
the arsenazo solution at PH 7.9 lies at 500 r;i~L and of the coirplex with sc,-Uldiur,
at 542 m~x . Thus the optimum optical density for scandium determination is at
570 m p- . The maximum colour intensity was observed at 3 - 3.5 fold excess of the
reagent In relation to the c~candiurn content in Zhe .9olution (in ti-itilell) , Thr., col-
our develops in 5 min remaining unchanged for Geveral hours. Tne miolar abnorption
coefficient of the s&andium complex was determined by the saturation method at
570 mi,.Awith 1.73-10 . Under optimum conditions the solutions of the scandium
Card 1/3
5/07 3/6 3/0 29/002/00 31006
Arsenazo I as reagent for... AC)57/Ai26
rm na. he
complex follow Beer's law in a wide range of concentration. Dete i tion of t
effect of the concentration of hydrogen ions cnthpformation of the complex showed
a mean value logK = 5.41. Scandium forms with arsenazo a 1:1 comnplex. The authors
assume that arsenRzo reacts with scandium in the quinonehydrazonic form. The scan-
dyl ion substitutes the hydrogen of the arsone group, while the hydrazo group has
a coordination bond with the quinone oxygen and nitrogen. A met'hod for the deter-
mination of scandium at a content up from 0.001,%, in various materials (coal ash,
granite, amphibolite, cassiterite slags, wolframite) was developed. The interfer-
ing elements are removed by the procedure described by the -authors for scandium
determination with propy1fluorone (Zav.lab., v. 28, 1962, 401). The aqueous ex-
tract after the s6paration of scandium by rhodanide-ether extraction, in evaporat-
ed, the dry residue calcinated at maximm 7000C, digested with 2 mi arjua regia
and evaporated, then digested with 2 ml 8 N IM and filled up to 50 ml with 23 ml
0.1 N HC1, 0.5 ml %, -solution of ascorbic acid, I ml 0.25% ortho-phc~nanthroline,
and 0.05 M borax solution. After mixing for 20 min the density iF measured at
570 m~_L also of a solution prepared in the same way, but without scandium. The
scandium content is determined from a calibration curve. There are 4 figures and
2 tables.
Card 2/3
Arsenazo I as reagent for ...
S/073/63/029/002,/003/006
A057/A126
ASSOCIATION: Institut obshchey i neorganicheskoy khimli All USSR Laboratorii v
odes8a (Institute of Ocneral.and Inorganic Chemistry of the
AS UkrSS11, Odessa Labovatovietj)
SUMMED: September 20, 1961
Card 3/3
NAZARENKO, V.A.; ANDRIANOV, A.M.
Determination of germanium as a ccmplax P.(roc&tacbol gOrmnat9.
Zav.lab. 29 no.7:795-797 163. (MIRA 16r8)
1. Institut obshchey i neorganicheakoy khimiil.All UkrSSR.
(Germanium--Analysis) (Pyrocitechol)
Kilzirc-nho, V.A., ShUstlova, B.
-3 .3 1, it I q 'T
I C, - i 5~
lllamati~ rarhornetrv. ri~mntllativf~ analv.-41F,
k, A o' r-nu Tn.
~!Ot' jjn:-:!t ric m i tLi y!; i n I r t, o i iy t. v) o n
NR; AT404al0f)
S Ov 003
ACCESSION NR: Ap4oo9727 S/0075/64/019/00-1/0087/0089
AUTHOR: Nazarenko, V. A.; Lebedeva, N. V.; Vinarova, L. I.
TITLE: Complexometric determination of tetravalent germanium
SOURCE: Zhurnal analitichaskoy khimii, v. 19, no. 1, 19640 87-89
TOPIC TAGS: complexometric determination, germanium determination,
quantitative emanium determination, complexone III, GeO sub 2,
germanium (1VT, germanium complex formation
ABSTRACT: Complexometric determination of tetravalent germanium in
GeO was accomplished by use of a heated solution of the disodium
sal? of ethylenediaminetetracetic acid and a 2.5 fold excess of
complexone III. Changing of the anion into the cation form was found
to proceed slowly, and complex formation occurred quantitatively at a
0.02-0-05 N H01 acidity. As one mole of aeO binds 1 mole of complex-
one, the Ge gram - equivalent is 72.6, The gx~ess of complexone was
titrated off with zinc sulfate and a color indicator. Standard devia-
tion errors were + 1.2% for 15-200 mg Ge and + 4.6% for 0.2-3 mg Ge
Cord 1/2
ACCESSION NR: Ap4o09727,
per 50 ml solution. The influence of chlorides on the complexometric
titration wan also studied and reported. Complex formation proceeded
normally at a 3 mole/liter NaCl content. Orig. art. has: 1 figure
and 2 table3.
ASSOCIATION: Institut obahchey i neorganicheskoy khimii AN USSR,
Laboratorii v Odense (Institute of General Luid Inorganic Chemistry of
the AN USSR, Odessa Laboratory)
SUBMITTED: 27Aug63 DATE ACQ; 14Feb64 ENCL: 00
SUB CODE#. CH NO REP SOV: 003 OTHER: oo6
Card 2/2
i3f. r I r~ 0 Mr,- TLl~yl
--PPjWf, W75%7V.
fl-4
RUSE"
10, 13
~rqqn w tj
1159-1463
.21"hurnal analitichevI(ov K-himil, v 1q no, 12, 19CM,
-)FIC T'AGS: purpurogallin, lermaiiiurn, f~ermaniurn --riplex.
t r-
ge rmanlum. reaction
rhe purpo-Be of this Investigation -was to 9tudy in vr,.mter detail the
w-r-manium with. purpur
J~v 'NO11 -TAI- 14*2' it Wag eITTUDIUM,
(I ox,rc a rhany. compound, foranit,47 a cor-nplox vilth tvro liquids, Purpurogainn can
Nil: AP5001462
I T, f)I o r
'4 'r
TVIP Molar extinct-
r n,. -1r,
o,,L
tl;A
jJ7
ACCESSION NR.- APS0217al UR/0074/65/034/008/1313/1331
S46.286
AUTHOR: ffazar.nko, V. A.; Andrianov, A. R.
TITLE: ijcomplex compounds of -I
germanium ,tz state in solutions
SOURM Uspekhi khimii, v. 34, no.
TOPIC TAGS: germanium, germanium compour7d, g~--rmanium, organic compound
ABSTPACT: The present status of the chemistry of complex germanium compounds Is re-'
-.iv4eJ, and the state of Eermaniuri in solution, which is closely related to complexi
formiric., is aIE--.0 di~-cussQd. The reviev dealn with the following subjects: (1)
state oE g~-mnan:um in aqueou-, solutions; (2) state of germanium In Inorganic acid
~;301utioRs; 0) gerna-aium heteropoly acids; (4) addition pr--ducts of germanium tatral
hallldes,; (S) co~.q)lex compounds of germanium with polyhydric alcohols-, (6) complex
cjmpoaads of gerr-anium with ca.-I)oyylic acid,-; (7) compley- compounds of germanium
with dipfteno'la; (6) complex compo-ands af geriianiu.-- with hydroxycarboxylic acids' in~
Clulint-, (f,) compiunds already containinp up and
an orthc or perihydroxycarboxyl gro,
(L~) compolifl(I"", or 0-diphenol. ttvuctur.-,- cnpalilv of tiwtomric converaion into
Card 112
'ACCESSION NR- APS021781
lo-hydi,oxv'
quinones; (9) nitrogen- and sulfur-containing gernanLium complexes,
com~plvy-forming germanium ions.
ASSOCIATIOU; Institut obshchey i nearganicheskoy khimit AN UkrSSR, Laboratorii v
:OdesGa (Institute of General and Inar~j~nic Chemistry, AN UkrSSR, Odessa Laboreoried)
.SUBMITTro: 00 ENC[': 00 SUB CODE., GC
;UO FXE* SOV.: 065 OTHER: 174
?511b-fl,b MT(m)/
C NR- AP6015723
t)/ETI 1jPk C )JD/JG
IV) SOURCE CODE:
UR/0032A6/032/005/0510/0512,
AUTHOR: -Yagnyatinskaya, G. Ya.;..Nazarenko, V. A*
ORG: Institute of General and Inor anic Chemistry-AN UkrSSR (Inatitut
obsbe y i noorganichesl-coy khimi ukrs:5m)
TITLE: Photometric determination of microamounts of niobium in titanium
and titanium tetrachloride,,1
,SOURCE: Zavodskaya laboratoriya, v- 32, no. 5, 1966t 510-512
ITOPIC TAGS: photometric analysis, niobium, titanium, titanium compound
ABSTRACT: The proposed method for dotermination of niobium In metallic
titanium and titanium tetrachloride is based on separation by extraction
with a solution of tribenzylamine In CHC1 from 11 M HC1 and final
determination photometrically using orthohtrophenylfluorono. The
method makes it possible to determine down to 0.02 microgrnms of n1obium
in 1 ml. The determination of nibbium is not interfered with by the
following other impurities (in microgravis/ml); Ta--0,4; T1--4; Zr--8;
Sn--2; Mo--2; W--l; Ga.--4; Sb ;;p40; Fe ;>300, Witb the use of extraction
with an 8% solution of ~ribenzylomine In chloroforms a check using the
radioactive Isotope NbT'~ showed that in a single extraction from 11 M
UDC:
L 38116-66
ACC NRs AP6015723
hydrochloric acid, at a. ratio of 100:25 between the aqueous and organic
phases, 87% of the niobium went over into the organic phase. 0.1 M
hydrochloric acid was a better extracting reagent, In a single
extraction, with a phase ratio of 50:50, 94% of the n1oblum was
extracted. Titanium was not extracted and Its presence in the solution
in the amount of more than 0,5 grams did not interfere with the
extraction of niobium. Orig. art. has: 1 table.
SUB CODE: OV SUBM DATE: none/ ORIG REF: 003/ OTH REF: 001
2/2
ACC NR# AP6010053 SOURCE COL)E& UlVO032/66/032/GD3/0267/0269
AUTHOM narAranko A. Ve A.1 Biryuk, Ye. A*; Shuatova H. Bo; Shitarerva, G. G.;
Vinkovetsk T'74an-tllw-va, G. Vs
aya, S. Ia.;
ORG& Institute of General and Inorganic Chamistryp Ali UkrSSR (Institut obahchey I no-
organi-bbe-skoy khImit AN UkrSSR)
l
TITLEt Letermination of impurities in tantal-Mill
SOURCEs Zavodskaya laboratoriya, v. 32, no. 3, 19668 267-269
TDPIC TAGSt tantalump Impurity level, photometric analysis, iron, copper, tin, lead
ABSTRACT: The photometric determination uf impurities in tantalum is described. It has!
a sensitivity of 10-41 and requires all the precautionary measures used during '.he
analysisof high-purity metals, including the running of blank experiments under con-
di~ions of sample analysis. The photometric determination is preceded by extraction of
the analyzed element (Fb, Cu. Fe, Nip or Sn) from the tantalum sample, by extraction
durIng the determination of tantalum in Zr, Bi. and Zn in the form of a fluortantalate
co4lex, and by dotermination of chromiun after separation of the tantalum by hydolyd3.
Lead and cadmium are determined by dithizone after extraction of the lead and cadmium
(iWthe form of dietbyldithiocarbaminate3) from acid modiun with cbloroform. The inter-
fering effect of other elements is eliminated by washing the extract with alkaline
1/2 UDG:
ACC NR- A.P6010053 0
solption (pli 12) contritning, cyariido, tartrate, and dlettjyldithiocarbu.-,,irittci* 7ho rhoda-
nidp method,, with extraction of tho dyod comploxt In used for tho d(stem4nation of lron~
Copper is determined by dithizono. The soparation of Iron and corper from tatitrd= is
made by extraction of thoir diothy1dithiocarbaminato salts, Tin is determined photo-
moirically with paranitrophony1fluorono after oxtrartion of tho tin from the sulfate
medium with chloroform in the form of diithy1dithiocarbaminate. This Is mndo sL-Ularly
to the determination of tin in niobitan (11. B. L,',bedeva, V. A. Nazarenko, Trudy ror-Assii
po anaticheskoy khimlip Izd, Ali SSSR, XI, 287, 1960). It in convenient to determine
some impurities after separating the tantalum from them. This can be done by the ex-
traction of the fluorotantalum complex with ketones (e.g., cyclohexanono) from its
solution in HF and H 0 or H S040 while Zr, Ti, BI, and Zn car, be determined in the
aqueous phase: Zr vrit p'heny1fquoronev Bi b7 the Iodide-ketone method, and Zn with
dithizone. Chromi= Is determined with diphonylcarbazide after separation of tantalum
by hydrolysis*
SUB CODE: U,,07/ SUBM DAM none/ ORIG REF& 006
hs
RR Nj