KMYEV, 0.7,; KOGINA, N.A. Classification and identification of soils In Central and Eastern Siberia. Krat.soob. BKNII no.3s65-72 162, (KMA 16:5) (Siberia-Soils-4ldsalficatiqn)  ALESSAMtA, I.V.; DIM, V.M.; MMMVAp V.S.; -ROGINA, M.Al; FMIMUNAt G.A.; PAZORENNAp II.A.; TSERLUG, V.V.; ~EMXMv E.I* Second Congress of Soil Science Delegates, Pochvovede~is no.1:93-102 Ja 163. (MMA l6$2) (Soil reaearch-Congreases)  EOGINA, Nina l7v'-:,.'A, Yi7-,.I;., d~-kt-jv ovllkhoz. rjauk, otv. red. fs,oils of I-rkrisixilkal im i ro~. tivy Zabitikfi. 'JR. Moskvaj Izd.-vo "Nauka," 191-1, 3,11-1 1). (I-IIHA 17.10)  HARM'S, A.7o; GRMT, X.Te.; ROGINA, O.P.; SALGANNIK. G.N. (deceased); SKMMV. G.I.; STIPANOt.-M.-U.-, IMA-KOVA. T.N., red.; TAMLUICH. Ts.L. red.; GABIRIAND. R.1., takhn.red. , [Lecture couran for pregnant women] Kura leictaii Me beremanykh zhenshchin. Pod red. L.G.Stapanova. Izd.3- Kosicva. Kedgic. 1959. 231 P. (MIRA 12:8) 1. gauchno-lealedovatellskiy institut akmaherstva i ginakologil Kinisterstva zdravookhranonlya RSFM (for all except Khanova. Yankelevich. Gaberland). 2. Direktor gauchno-issladovatellskago Instituta akasherstya i ginskologii Kinisterstva zdravookhrans- niya RSISR (for Stapanov). (FMATAL CARE)  RMOVITS, Rosalip Maumovna, kand.med.nauk; BTU% Madechda, Romanowna; .. ROOINA, 01*ga.Pavlovna, lmad.med.nauk; MARINA, N.M.. kand.med. -iiii&, 'red@; KAIMANOTA, Ye.G., red.; ZATVAH. B.A.. tekhn.red. [Kother's diary) Dnevalk materl. Hod.-sost.O.k.""aglaa. Bad. U.N.Akeartua, I X.G.Xarnanova. Koskvs, In-t sanitarnogo prosT. K-vs zdravookhranentia SSSR. 1960. 178 p. (MIRA 13:7) (CEEILDM-CARF, AND HTGURS)  -a w a we-wow* 0 0,0#0 0 0.0 0 0 :04 a j 1 4 , I: I A I a It a as w a Is U A I r- 004 B.A., I- IA a dr. 000 -6. 009 000 SIG. Inceractim ad Acetl$"w And McCVUCY CifitatUO Ob- ;00.! Absence of FAIM& fin Ituftian.) IC KIL FMI(OW41 "I"I HKIleffs of Me Academy of Sriatefrs o. fy.%& of 'r'tiax of chrofiral scieaers' no. 1, 1947. 00.1 P, 105-106, 0: The Interaction of acetylene anti mercury chb,rM, in the 414carv of a 1.,Ivt.nt. at 100'(".. rpsullpi if) 0 formation of cis-betachtarvinylatercurte chfori.le 00 in cood y1eK The (ran# compound is famed only 00 in a very small quantity. calm WIP 'Ut 4113 (A 6 A# F 1 woe W4116 flux MI .00 K0* coo 40 0 4*0 as* goo roo 9 0 As a a 4 4 3 6 If  AcV4m d braWas an dtlarocubQ"(". R. A. N. Ntsca4yursaw (Icul. (h chtm.. Ifoscuorl. /emit. A444, mesa S.S.S,R., ; M KhIM -VIS41ir NO, &II-S.-IfCAVIIS 10 11. StOiCCI with 132 c, Or IN bro. tm 4 stftm both q~cve 204 C. Itt. I ciftcli'llf. AV. yi,W. WAS%. FAMUMIly. P"Nccl '(t" 9 ~ give 136 C. IT- 32-3% eV A192.4." J247.). fictf*hccl elve 43,70 MccIfEte- t~ffjlr%je, 1~,. A] ~, , 1'. 1A# 1 .500. d:* 1~7?02; j~%- - flu( WC I 94VV 44W; ClItIVII IMPI 1.2.3- m4p., h. QI-3% av LNrM, 3:1 1.76-N..'ad 1", lfk:, 0" lot? dor 23W.. G. It. K(4014p-d  a it m Its U It. C- L..x of. so 4 00 1 4 Usalum Tetrachgoe4o Whit Akefials dm tw4cwr of Ammomis 404 ryrwsw. (in Rtmian.) 0. V. Ntitew, R. Kh. Fretiffina. ad A N tieviflo .41-adeffia Nouk SSSR (MA-fto fit fhq- Aratlemy of 4kictmvt 44 41w USSR). !"to.-tv 1,11 p U17-1iU, RemAkm of TrCl. with rthyl, go-butyl. 4110, AlMl 444(ilie (n 411V PCtwg'tKV (A %3f. AVAI Ilif woh cjufm to Itw pn-.wimv.,f .~rjaigm. itordicAfni. %viii-ral arw eximpwiml- *rev tAItAm;vl AVAI thrOf fill% %k-Al ACIAl ACCUICAl so 00 1 '40 cow 91104D go 0 7A8 0 -00 480 !40 i_ 4, V-# I V 1A -Q b u 44 If VC C1 M KIM 411 4 ICA foe & : * o 0 0 0 0 40 0 00000 0000 0 0 0 0 0 0 60 o o 0 00*00 10 0 40 0 0 0 a & 0 0 0 0 * 0 0 --* 0  ON damoda Mill v. 'x0vuA. k' Mins. and A. N. Newwrasm, Inv.r. M4_ "Vit"AO 'CV.S. K., tAW4. Kiksom. Vdak 1"0, =7 Al. - 1*44:1. ,1-06 " ficid qR0)jj fit ird. fixtorct trieb kill$ tialt- lit'l t, *4mits4ted (mmc,ft4(v(y fly itwi4to 4 alk IVACCUll. .-Am aWn, of U C. TKU. to 60 C. RUM, go C, pytt-fittv, Aft.1 31111 tug. 'Velle with im et-Actc. t0410""I for j ft. At ild~--711* And filtrallIm. 1(aw 67", 1" 14;'." .'*$,it'; tAU^itJV UK VVIOAUM-11CI M14.44MIC ill OW t4tilAqe "'It"'ll with Itte "CIC4141 rntvl ductile dt'444. I W4 4.), 9 1. (IyIkfi(SC-1(CI, A11111 WS till. C.114 i;Aftlf 2 1416, lit '046 A 091V 77i'~ (11.01)4 (14MINTI &W% nat WACI W A'Alle , twith kv reastille, 443". a I jj'j, I,$ ~1111 S 1404 111, 1446AM fly P.4"4fV 44 Mf, I.. A.a of pici ams 1"Atil's '~ lit. At '40" $At. AI,$ 014. 4 b414 111114. 1-4 4W J . A 111P p 11014 4. 0- Attwd "Uh I M C. hut If 101; V441 40 C.1 (. 4cf-Ard a 41(s 441 91 1`14011. (11HOWd 6V NUIASACKW ; lVA401(i ((I V411. *till erfl.141M all 111C 961401111(filIg .4jent IrAWO' A 111', ~Nbl. skm M(iln. of VA S.'rict. 1.6 V44 a Clot. 4:10:11,4111 04.10 -disigg. hAktIored hydwy X 11. twi. Knit& 0.5 C., ami I.-.4it'd I lit. At -it NV Coirr.141 j, I's. (p. 141 ~.". - M42`~ rwu Is uIpwiscrIf whm C.M. to u-.cd 40 A 'Iduent. th; PO`(XIUCt b#.# 15"'. ROW AIUQ. 01 24 c. TiCl. to 15o g. W011 with ke awfing. fill(owril fly (try \116 (WI. C-Ain VA C.), Own twalitiC 41) cittin. at 741'. fdtrAtkxt tvis C'mcls. i0i S.'rao, 414114. "ith V41(s in YVA. ft~k(UAI AM# MIl"t"11 111ft-01-1. CAVC 7"" APP411, N I AiMil. ve id 41 Of. XI a IM. . mA S., Vill till. 4:,Il, Witte ftdutc. t,v.tlrv N.M. 1.W W Iss- "ith 1A.Stitta. fittlitti4ill, AlM 4(t44" AVA., fiat.% 2,11 . 4;. It. k.-JACM4  FRUDLINA9 R. Kh.; NOGIWA. Q.V.; KFMMUMOV, A.U. Bromine Effect of bromine on alkylchloracarbortates. Uch. Zap. Mosk. un., No. 132, 1950. 9. Monthl List of Russian Accessions, Library of Congress, October 195-!P, Uncl.  NOGINAO 0. V. USSR/Chemistry - Organic Titanium Compounts Sep/Ok-.t 51 "Action of Chlorine and Bromine on Alkylorthotitanates," A. 14. Nesmeyanov, R. Kh. Freydlina, 0. V. Noginal Inst, of Org %em, Acad Scl USSR "Iz Ak Nauk SSSR, Otdol KhIm flauk" No 5, pp 518~-523 Fourd that action of C12 and Br2 On h;t, n-Pr, and Bu orthotitanates gives good yield of compda of type (RO)2 TiHa'2. ROH and that orthoalkyltitanates cause ester condensation of aldehydes according to Tishchenko. Synthesized following previously unknown compdst (RO)2TiBr2'H0H (R = Et, Pr, Bu, resp); (RO) 2TiC12'RCH (R = Pr, Bu, resp); (pro) TiCl by interaction of pyridine chloroaydrate with Pr orthotitanate; and (RO)4Ti (R = hEt, Bz, MeCEt, EtOEt, resp by re-esterification. PA 195T7  11cr-ml, 0. V. WGIVA, 0. V. -- "Develop-4nt of Methods for the Synthesis arr4 Study -)f the Characteri5tics of Organic Compounds Containing Titanliv." S'ub 20 ~~r 522 Inst of Organic Chemistry, Acad Sci USSR. (Dissertation for the Degree of Candidate In Chemical Sceinces.) SO: Vechernaya Moskva Jamuwy-December 1952  NOGINA. O.V.; PIMYTRUMA, R.Kh.; nWRYe.UGV. A.N. Synthasis of trialkoxytitanlum chlorides. Bull. Acad. Sci. U.S.S.R., Div. Chan. Scl. 152, 81-5 (RagI. translatioal. (CA 47 n0.19:9911 153)  Imi-lat 0. V. Chemical Abet Val. 48 No* 9 ft 10t 1954 Orpnio Chodatry A"kah-ow. rA. CA, 49, 56Tc. ff. L. if.  ~40&-w(A.41 0.4. him 1tw&wAkd" sad skehals. -.L H Kh. 4 WOO=. ""M, ako VY( I-AC-S41 yields ROTiCts as the We product. The rescents (D AvAtid; d4--a-4 thoroughly dry and the react1cm muikt be protected agaftut 4 atm. mal-ture. To 142.5 c. TIC14 and AM ml. pecr. ether (b."') was gradually added 30 j. PrOH In 200 mi - petr. ether. the mUt. was rdluxed 3 hn., concd.. and chilled, yfecifing a t. which itas scipd. and distd. giving after 2 distrus, 96.6% PrOF70ii, bio O-S', his IM-2-, in. 6"'. Similarly 142 C. TIC14 and 23 g. E(Oll In pecr. ether Cave. h i f rom a coacn. of t e on after I hre. mffux. decantat sola.. and chfUlac, Z7,5% FjOria., M"*. Mid CCI f 2 OH I 223 l d 4 h o-Bu . ter n m 2 # gave a 26 C.) an 924* d ti l 00 i H O riC b A I 2 so- %. reaux an a ng. near y 1 h. . , % 81-3* ka-AmOH (44 ) and 142 TICI In ett m 5 C . . . . . , p mi. ether give after 5 firs. us 9S.5% iso-AwcOVai, bit * ' 110-11 . m. " ; C4HnOH and VC14 similarly LAve after 3 hrs. reltux nearly IM9,' CArOrXlt. be 120-2-. in. TICI 17 F38 4 142 5 I . ts C.) a. , F. MOUIC itearly IM a MOCIrs- o ~ slow(y at I" at 5 mm'. IS"' bli d t m I d th d It W I ft e su uc . wu n . . au me pro , n pe ; ether, C". CsHC. at Stio. 0. M. Kowaaaff O V -4z-41w;1---..-. RM  MU)themistry - Titanium C*n*&mdz Zan/reb 52 "A New Method for Synthesizing Trialkoxytit-nn-lum Chlorides," 0. V. Nogina, R. Kh. Freydlina, A. N. Ntameysnov; Inst of Org Chem, Acad Sci USSR -11 Ak Nauk, Otdel Khim Nauk" No 1, PP 74-77 T-h* nev synthesis is based on the re-etherification of thietboxy ti~,anium chloride, and proceeda as follows: (C050)3T'Cl 3 Ron 4 (RO)3 TICI + 3 C 2H5OH. 208!06 UM/thimistry - Titanium Compounds JanlFeb q2 (Contd) A w=ber of heretofore ualmown compda was synthesized by tbis method, Vhich in quick and gives an almost qftnt yield. 20&1,6  0A. Ift; lef 88mi (D ex4t" (j,,v%c4C&t app. provided with drying tutj,-s (cw exclusims of moisture 102 C. dry altyl &k. and 256 mi. dry Cjl* is treated with ke coo(int with 60 c. T*LCI4 aver 3G- 40 min., alter which the mixt. satd. with NIf. (rxot ten than 23 c. run (a wt.) and fiftered. The filtrate yiekto 4t-6%(CII#:CffCIfO).V. th t4l-2*. whkh is very hycroscopic and rexxWy hydrolyzed.  dw,w. aA- 1 It Ora F-w awl F IV=)* cf. G.A.44.315G.-To-M-C. F 1'1~ 4w C. dry MW M ad.' drl~ Cife is &CMcd with k4 ~Owrlg. ff. T I= Mist. N then he4ted a ka at P-70, Coom W(Tb OW atid futered. The Oltnt;; itetas as~ mouria. ba 174-6". All mcksturs amt be extuded on hoO14 tW pWuet  .in'l A- 13- Brh-,s JJl- 11'r- -V 0"'. Sedhtenif. Sbarmik 2, d. C.A 44. Sk-,Ii - To C49) nit. atm. MOll k graditalh- addt-d % ith c-litig ;,t,.1 mirving t42 g. TiCl., aftvr %hich the mim i~ '%0. with 'ttv ml, With Ice mAing 1111fil 5t g. pin k it-mIltil. The 14 rapidly fillert4l coned. in raturv, roilter(41, and fliAd. yielding 67-74(lel~ (1-:10)'1't, h? 1311 IV. 1t.2311 V. All ycra- (IonsintIO  '~k'/ ~'.) (!- I /I ~ // 11 f () I i NESHEYANOT, A.H., akaaamilt.; mam, O.T. ~ Roaction of dialkov/-titanium-oxIdes with tetra-alkov y-silanes. Dal-ft, AN SSSR 117 no,2';'49-?51 9 '57. (min 1113 ) Oltanium organic compoundis) (SlIane)  RESIMUMOV. A.N,.; XOGIRL. O.V.; MY=,KA, R.Kh. Preparation of hersalk7loildItitaaoxanes (Rob" - 0 -- TI(ORb- Izv.*N SM.M.Wm.nauk zto.3:373-375 Kr 156. (KLRA 9:8) 1. Institut elementoorgaalchaskM soyedluenLy Akademil nauk SSM. (Titanium organic compounds)  5 (4) AUTHORS- Nesmeyanovy A. Top SOV/62-59-8-32/42 Dubovitskiy, V. A. TITLEs Effect of the Time Factor on the Degree of Association of Titanium Alkox7l Derivatives in a Benzene Solution PERIODICALs Izvestiya Akademii nauk S33R. Otdeleniye kbimicheskikh nauk, 1959, Nr 8, pp 1496-1498 (USSR) ABSTRAM This brief surve discusses the property dealt with in numerous papers (Refs '1-3~ of the alkoxyl derivatives of titanium to associate in aqueous benzene soluticna. It has been shown that the methods used for the determination of the molecular weight (kryoscopy and ebullioscopy) yielded a higher molecular weight than corresponded to the monomer. The authors of the present paper now succeeded in showing that the degree of association of C1 Cl '~Tio' TiOsROH, the substances: (R0) Ti, ClTi(OR) (-RO) TiO, 11 1 4 3 2 ROI- RO C12TiO-2ROH changes gradually. It diminishes and, after some hours, equals 1. The decomposition rate of the associates, Card 1/2 howeverg ia not high, while the activation energy of the  Effect of the Time Factor on the Degree of Association SOV/62-59-8-32/42 of Titanium Alkoxyl Derivatives in a Benzene Solution dissociation of the associates is considerable. Figures 1 and 2 show the change in molecular weight of some of the relevant substances in the course of time. The table contains the molecular weights of the substances under investigation. Some substances had been synthesized by the authors for the purposes of this paper and had actually been obtained for the first time, It was seen from the curves that initial monomers are formed by dissociation. Thus it is possible to use kryoseopy for the determination of the molecular weights of the compounds under investigation. The authors will report an the newly oyathesized substances in future papers. There are 3 figures,1 table, and 5 references, 1 of which is Soviet. ASSOCIATION: Institut elemcnto=,;anichesk1?h soyedineniy Akadeaii nauk SSSR (Institute of Elemental-orge"ic Compounds of the Academy of Sciences, USSR) SUBMITTED: February 18, 1959 Card 2/2  6617 q SOV/2o-128-5-2Q/67 AUTHORSs Nesmeyanov, A. N., Academician, Nogina, 0. V., Dubovitakiy, V. A. TITLZ: Activation Energy of the Disaggreeation Process of Associated Titanium Alkoxyl Derivatives PERIODICALs Doklady Akademii nauk SSSR, 1959, Vol 128, Nr 5, pp 964 - 965 (USSR) ABSTItACT: The association degree of these derivatives decreases compara- tively slowly in diluted benzene solutions. Within several hours'all associates disappear (Ref 1). The association of these derivatives is explained by intermolecular coordination bonds between the oxygen atoms of ond molecule and the titanium atoms of the adjacent molecules.(Refs 2-5). The dependence of this phenomenon on temperature was investigated and the activation energy of disaggregation determined in this paper. The method of cryoscopy was used for this purpose. Figure I shows the kinetic curves of the disaggregation process of the associates of tetra-n-propoxy titanium at various temperatures. The values of activation energy were computed from the dependeL- cies of the initial velocities on temperature Uig 2). Th~-i Card 1/3 are 7-7 kcal/mol for tetra-n-propoxy titanium, 8.0 kcal/mo I tl~  66174 Activation Energy of the Disagaregation Process of S07/2o_12A--5-2i/67 Associated Titanium Alkoxyl Derivatives for associated tetraethoxy titanium, and 6.1 kcal/mol for di-n-propoxy titanium oxide. Limit concentration at which the association degree of titanium alkoxyl derivatives decreases to 1 depends little on the structure of the titanium compound (Fig 3). The structure of the alkyl, however, hau a distinct effect on this phenomenon. Spatial obstacles influence the association degree of the titanium derivatives mentioned. Association does nqt take place Ett all if there is a rami- fied carbon chain of tetraalkoxy titanium at the carbon ntom adjacent to titanium (tetraisopropoxy titanium, tetratertiary butoxy titanium,. references 2,6) in the case of concentrations of benzene solutions up to 2.0 mol%, If the ramification of the alkyl chain in tetraalkoxy titanium occurs on the carbon atom, the tetraalkoxy titaniums are associatt in benzene solutions. Also.in this case the association degree decreases gradually and reaches I after several hours. There C3rd 2/3 are 3 figures, and 6 references, 1 of which is Soviet. LV  66174 Activation Energy of the Disaggregation Process of '507/2o-12,,-5-20/67 Associated Titanium Alkoxyl Derivatives ASSOCIATIONt Institut elementoorganicheskikh soyedineniy A~ndemii nauk SSGR (Institute of Eloinontnl-or~,-anic Compounds of the Acadrz:-4 of Sciences, USSR) tj~ SJMUTTED: July 9, 1959 Card 3/3  /vo 82101 S/06 60/000/07/04/007 B0159054 AUTUORS: Nesmeyanov. A. N.-, Nogina, 0. V., Berlin, A. M.9 Kudryavtsev, Yu. P. . TITLE: Chemical Transformations of Dialkory Titanium Oxides PERIODICAL: Izvestiya Akademii nauk S35R. Otdeleniye khimicheakikh nauk, 19609 No. 7, PP. 1206-1214 TEXT: The authors describe the chemical properties of dialkoz7 titanium oxides. They continued the investigation of deposition to theM w 0 boad, studied the stherifloation reactions, and found the substitution of alkoxy7A by halogens as well as a substitution reaction of the oxygen bound to ti- tanium with two chlorine atoms. They obtained the first compounds of a hitherto unknown series of titanium-containing organic compounds, i.e., athory-9 a-propoxy-, and n-butory titanium oxide chlorides. By the action of chlorine on di-n-propory- and dilsobutoxy titanium oxides, they produced the compounds Cl 2TiO*2n-C3N7OH and Cl2TIO-2i-C 4H9OH. On the reaction of dialkyl dichloro silanea with dialkoxy titanium oxideav the following ex- change of oxygen with two chlorine atoms takes place: A Card 1/2  8 Chemical Transformations of Dialkoxy Titanium Slo6 6010/000/07/04/007 Oxides BO I 5PBO54 (n-C 3H70)2 TiO + C'251R2 ---& (n-C 3"70)2 T'Cl2 + 105iR 2] X' A similar reaction takes place by the action of tetra-n-propoxy silane on the compound Cl 2TiO*2n-C 3H7OH, namely Cl 2 TiO*2n-C 3H7OH + (C 3070)4 St --*.Cl2 Ti(OC3H7),On- C 39709 + n-C 3 H7OH + losi(OC 35 -n) 21X . By the linkage of dimethyl di-n- propoxy silane with di-n-propoxy titanium oxide, the following compounds were obtained: CH CH / 3 1 3 (C 37')3 Ti-O-Si-CH 3 and (C 3 H70)3Ti-O-Si-O-Ti(OC 3H7)3 \1 4 1 OC 35 CH3 There are 8 references: 7 Soviet and I British. ASSOCIATION: Institut elementoorganichaskikh soyeaineniy Akademii nauk SSSH (Institute of Elemental-organla Compounds of the Academy of Sciences, USS SUBMITTED: January 23, 1959 Card 2/2  83900 S1020~601134100310131020 B016/ ~054 AUTHORSi Nesmeyanov, A. IT., Academician, Hogina, 0. V., and Berlin, A. M. TTTLEt Interaction of Cyclopentadienyl Sodium With Alkoxy Titanium Chloridesi - PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol. 134, No. 3, Pp. 607-606 TEM The authors investigated the reactions of cyclopentadienyl sodium with alkoxy titanium chlorides, and isolated mono-ir-cyclopentadienyl derivatives of titanium: cyclopentadienyl-trietboxy- and tri-n-propoxy titanium (see Diagram). They are colorless liquids distillable in vacuo and very sensitive to air moisture. The authors indicate the established and calculated yields and molecular weights of the two derivatives. As opposed to the ordinary alkoxy derivatives of titanium, the Tr-cyclo- Lx pentadienyl-trialkoxy derivatives are not associated in solutions, not even at a concentration of 1.7 mole,'I. The molecular weight of C5H5Ti (OC2H5)3' cryoscopically determined in benzene solution, correspoi-As Card 1/3  83900 Interaction of Cyclopentadienyl Sodium With S/020/60/134/003/013/020 Alkoxy Titanium Chlorides B016/BO54 to that of the monomeric compound. The authors proved the structure of lr-eyelopentadienyl-triethozy- and tri-n-propoxy titanium by conversion into the known. (Refs. 7,S) cyclopentadianyl-titanium trichloride (see Diagram). Further, the authors allowed ethory-titanium trichloride to react with oyclopentadienyl sodium, and determined and calculated the physical constants of (C 5H5)2 Ti(002H5)01. The -W -cyclopentadienyl- 0 trialkoxy derivatives of titanium are decomposed by alcohols at 70-80 C within 1 ho while corresponding tetraelkory titanium and cyclopentadiene are formed. The latter was isolated as cyclopentadianyl thallium. By reactions of Ir-eyalopentadianyl-tri-n-propory titanium with acetyl chloridel the authors obtained mixed chloride alooholates of "T -cyclo- pentadianyl titaniums 1) cyclopentadionyl-di-n-propoxy-titanium chloride which is disproportionated by vacuum distIllationj 2 cyclopentadionyl-n- propozy-titanium dichloride. Both compounds are greenish-yellow, viscous liquids decomposing under the action of air moisture, but still storhble at lower temperatures. There are 8 references: 2 Soviet and 2 US. Card 2/3  2JI 00 AUTHORSt TITLE; PERIODICALs M46713 ezO1WS12f S10201601134100610181031 B016/B067 Nesmeyanov, A. ., Academician, Nogina, 0. V., and Dubovitskiy, V. A. Slow Dissociation of the Associates of the A2koxyl and Alkyl Derivatives of Metals in Solutions Doklady Akademii nauk SSSR, 1960, Vol. 134, No. 6, pp. 1363-1366 TEXTs In earlier papers (Refs. 1,2) the authors described the slow dis- integration of associates of the alkoxyl titaniumqderivatives in dilute benzolic solutions. In the present investigation they observed that the phenomenon occurs also in the solutions of organic compounds of other metals. It was found that the degree of association in the alkoxyl derivatives of tinj irconium.,q and aluminum cryoscopically deterain-9d decreases with time and that within some dra it becomes equal to one. Fig. 1 shows the curves of the variation with time in the molecular weights of (n-C H,O) Sn in benzolic solution with a conegntration of 3 1 4 Card 1/3  e44-73 Slow Dissociation of the Associates Of the S/020/60/134/006/018/031 Alkoxyl and Alkyl Derivatives of Metals B016/B067 in Solutions 0.100 mold (curve 1) an; an analogous curve (2) f~,r (n-,C 4H90)4 Zr centration 0.161 aol%). The production method of tetra-n-,propoxy-tin and of tetra-a-butoxy-zirconium (Refs. 4,5) and of other products used is described. Fig. 2 gives the analogous curves (1.2,5) for (iso-C4 E[9)2 Aloe 2N in benzolic solution (concentration 0.099 mol%) and for (n-C3H 70)3Al as well as for (iso-C 4990)3Al. The authors state that at constant concentration and temperature the dimer of triethyl aluminum in dilute benzolic solution slowly dissociates to the zonomer stage. Fig- 3 shows a curve similar to those already obtained for (C 2H5)3 Al, and Fig. 4 shows a curve for (n-C 4H9 0)4Ti (1) in nitrobenzolic solution as well as (2) for (n-C 3H70)4Ti in dioxane solution. Curve (3) il- lustrates the variation in the molecular weight of tetra-n-propoty- titanium dissolved in cyclohexane. There are 4 figures and 23 referenceal 7 Soviet, 7 US9 2 French, 3 Germ%nq ani 4 British. Card 2/3  84673 Slow Dissociation of the Associates of the S10201601134100610161031 Alkoxyl and Alkyl Derivatives of Hetals B016./Bo67 in Solutions ASSOCIATIONo Institut elementoorganichookikh soyedineniy Akademii nauk SSSR (Institute of Elemental-organic Compounds of the Academy of Sciences, USSR) SUBMITTEDs July 12, 1960 Card 3/3  AUTHORSs TITLEs PERIODICAL: 20938 B117/B208 Nesmeyanov, A. N., Nogina, V.., and Dubovitskiy, V. A. Synthesis of dialkozy (aryloxy) titanium oxides by eater Interchange-of di-n-propoxy-titanium oxide Izvestiya, Akademii nauk SSSR. Otdoleniye khimicheakikh nauk, no. 3, 1961, 437-441 TEM The authors outlined the possibility of obtaining dialkoxy (aryloxy) titanium oxides and bia(triothyl-siloxy)titanium oxide by ester intercharge of the easily accessible di-n-propoxy titanium oxiie. (C2H 50)2 TiO and (i-C5 Hil 0)2 TiO, (n-C6H 13 0)2TIC, (C6H50) 2TiO, PC2H5),SiOjjTiO, hitherto not yet Oescribed, were prepared in this way. Diphenoxy titanium oxide was also prepared in the form of its molecular compound with phenol. All experiments were carried out with completely dry raw materials under exclusion of atmospheric moisture. The ultrared spectra of these compounds were obtained on a double-beam UR-spectrophotometer. The spectra were taken of solutions of the substances in carbon disulfide and carbon tetra- Card 1/3  20938 3/06 61/000/003/004/013 Synthesis of dialkoxy (aryloxy) ... B117YB208 chloride, as well as of a paste in vaselin oil. But no characteristic frequencies were found in the range of 600-1400 cm-1that could be assigned to the Ti-wO bond. Also titanium oxide bis-acetylacetonate was prepared by reaction of di-n-propoxy titanium oxide with acetylacetone, This compound was prepared by hydrolysis by A. Jamamoto, S. Kambara (see below) who have assigned it a cyclic dimeric structure. Cryoscopic determination of the molecular weight of titanium oxide bis-acetylacetonate showed, contrary to this statement, that this compound has obviously the structure R3C\C-0 O-C CH3 HC/ \TJ ole CH ~~ C- 0 / 11 ~'* '0-C/ H3Cz 0 %% CH 3, and is a monomer in dilute solutions. The attempt of carrying out the addition to the Ti. 0 double bond in titanium oxide bis-acetylacetonate gave no addition product but dialkoxy titanium bis-acetylacetonate. Thus, the reaction proceeded according to the formula (C5H702)2 TO + Si(OR) 4 (C5H702)2 Ti (0R)2 + t)S'(QR)2' Card 213  -~j S/062/61/000/003/004/013 Synthesis of dialkoxy (aryloxy)... B117/B208 where R . C2H 5; n_C3H7 . The authors thank L. A. Kazitayna and G. A. Rudenko of the Moskovakiy gosudaratvennyy universitet (Moscow state University) for determining the IR spectra of di-n-propoxy titanium oxide samples. H. A. Chumayevskiy is thanked for taking the IR spectra of the remaining compounds, which was done at the laboratorya akad. I. V. Obreimova (Laboratory of Academician I. V. Obreinov)of the authors' association. There are 5 figures and 8 references, 5 Soviet-bloc and 3 non-Soviet- bloc. The reference to the English-language publication reads as followst A.. Jamamoto, S. Kambara, J. Amer. Chem. Soc. 79, 4344P 1957. ASSOCIATION: Institut elementoorganiohookikh soyedineniy Akademii nauk SSSR (Institute of Elemental-organic Compounds, Academy of Sciences USSR) SUBMITTEDt January 81 1960 Card 3/3  t)O 23569 S/062/61/000/005/004/009 BI18/B208 AUTHORSt Nesm^yano7, A,N. Nogins, 0. V., and Berlin, A. M. TITLEt Mono-IT-cyclopentadienyl derivatives of titanium PERIODICALi kkademiya nauk SSSR. Izvestiya. Otdeleniye khimicheskikh nauk, no., ~, 1961, 804 - 807 TEXTs The authors studied the reaction of sodium cyclopentadienyl with diet, hoxy-t itanium dichlorid^ Oc2HC; 2M Ti(OC H 3CH,Na--,iC HT-.,(OC H;) (C,,H ) T." + 3Nacl. 2 2 5 2 3 5 2 cl The soparated liquid cyclopentadienyl.-*.riethoxy.-titanium which was analyt- ically confirmed is not associated in solution, rontrary to the common alkoxy--,itanium derivatives, Its molecular weight, cryoscopically deter- mined in benzene, corresponds to that of the monomer compound, even in a concentration of 11.7 molt ~4. I-,s structurm was confirmed by conversion with acetyl chloride to cyclopentadienyl titanium trichloride C 5H5TiCl 3' Card 1/4  23589 5/062/61/000/005/004/009 Mono-n-cy-,lopentadienyl-, B118/B208 Its melting point J's by 200 C higher than that found by R~ D. Gorsich (see below). The se,-ond yellow, crystalline produ.ct of the above reaction (!orresponds to dicyc1rpentadienyl titanium ethoxy-chloride. To obtain only cyclopentadienyl trialkoxy-titanium in the reaction of sodium cyclo- pentadienyl with alkoxy titanium i-hlorides, tri-n-propoxy-titanium chloride was used as titanium derivative which gave, as was expected, cyclopenta- dienyl-tr1propr:xyztitaniu.m CC;H,Ti(OC H,), n a yield of 96 %. With acetyl chloride the latter gives Cyciopentad-~enyl titanium trichlorldpi ~ 1 1-- , I C H,.TI(O(,' H CH COCI H,TiCl ~ I j - . C + 'CH Cdoc H 5 11 5 7 3 3 3 3 The reaction of 0011iUM cycl.:;p-ntadienyl with ethoxy-titanium trichloride took place according to the formula Cl TiOC H -+ 2C,:H H )Ti---~ NaCl. 3 2 5 5 5 0C2H5 The attempt of an eater internhange of' cyclopentadienyl triethoxy-titanium with propyl alcohol was uns-i,~cessful, as this alcohol converts this Card 214  23589 S 6.2 Mono-i'~-cyclopentadi,~,r.y'-..., B-02108 n-cyclopen'ladienyl compound to tptraprop,)xy- t4 tanium (C H 0) Ti under 5 7 4 mild conaitions, Ethyl alcohol reacts similarly forming tetraethoxy- t1tanium (95 % yield) and ry-71op-~ntadleno (97 % yiald, in the form of thallium cyclopentadieny!). To obtain mixed chloride alcoholates of it- Ti(OR'Cl and C H Ti(OR Yt-cyclopenta- cyclopentadienyl titanium, CSH 5 2 5 9 )2C" dienyl propcxy-titanium wan allowed to react with acAtyl chloride ( 112 and 10), where 0 H TI(OC,H )PI 5 1; 7 '12 and C',HrITi(OC 3H,),Cl, respectively, resulted. The rea(,tion prodiv~ts art green-yollow viq,~oiis liquids, not stable to atmcspherin mo3stnre. but stable when stored a, I - 50C, There are 11 referencesi 3 So-iet blo-~i and e non-Sovipt-bloc. Thp 4 references to Engligh,language publications read as follows, C.L. Sloan, W. A.. Barber, J. Amer. C~ em, Scr 81 7 '164 (19159',; M, A~ Lynch 1~ C. Brantley, Chem. Abstr. c2~ 11126 (19~`81; A. K Fis-her. G' . Wilkinson, J, Inorgan. Nuclear Chr-m. 149 (1:956); F. D. Goroich, J. Am-~r, Chem. Soc,. 80. 4744 (1958)- ASSOCIATIO11i Tnatitut elementoorganicheskikh aoyedinen-,y Akademli nauk SSSR (Institute of Els-mental-Organic Compounds of the Academy of Sciences USSR) Card 1./4  Mono-n-cyclopentadienyl.... SLJBMTTTEDi April 8. '960 23589 S,,'062161/0-00100510041009 B11-8/B208 x Card 4/4  NESKEYANOVO A.R.; NOGINA, O.V.; BERLIN, A.M.; GIRSHOVICH, A.S.; SHATALOV, G.V-1 Acyl and alkoxyl derivatives of bis-(cyclopentadlevyl)titaniua " the refraction increment of the ;C 5Ti group. Izv. AN SSSR Otd.khim.nauk no.12:2146-2151 0 6? (MIRA 14:11) 1. Institut elementoorganicheskikh soyedinenly Akademii nauk SSSR. (Titanium compounds)  S/062j62/000/007/012/013 B1170180 AUTHORS: Nesmeyanovp A* N., Regina, 0.- and Surikova, T. F. TITLEs Alkylation of bio(oyclopentadionyl)titanium diohloride (C5H02 T'Cl2 PERIODICALs Akadeaiiya nauk SSSR. Izvestlya. Otdeleniye khimicheskikh nauk, no. 7, 1962, 1314 TEXT: The authors are the first to have achieved aromatic substitution in cyclopentadienyl titanium derivatives by means of (C 5a5)2 T'Cl2- Alkylation of bia(cyclopentadienyl)titaniuz dichloride took place under the action of ethylene on a (C 5H5)2T'012 solution in*chloroform at a pressure of 30 atm without the catalyst AM 3* Double subliaation in vacuo yielded C 10H4(C2 H5)6 TiCl 2- Diothyl-bia(cyclopent.dienyl)titanium dichloride 0 10 HO(C 2H 5)2 TiCl. was/obtained under the eame conditions in the presen;e of AM Y Monoothyl-b/io(cyclopentadionvl)-titanium dichloride Card 1/2  S/062/62/000/007/012/015 Alkylaticn of bia ... B117/B180 C H (C H )Ti 1; was obtained without AM by the action of triethyl 10 9 2 5 C 2,- 3 amine on (C5 H5)2 TiCl 2- The infrared spectra of the resulting compounds showed bands characteristic of methyl and nethylene groups. [Abstracter's notes Essentially complete translation.] ASSOCIATIONs Institut elementoorganicheskikh soyedineniy Akademii nauk SSSR (Institute of Elemental Organic Compounds of the Academy of Sciences USSR) SUBMITTEDs May 17, 1962 Card 2/2  S/W/'21/000/008/013/016 BIOI/B180 AUTHORS: Nesmeyanovo A. 11o, Nogina, 0. V.,.and Dubovitskiyp V. A. TITLE: Data on the titanium - cyolopentadienyl ring bond in C5H5Ti(OC 2H5 )3and (C 5H 5)2%,,7CCOCH 3)2 PERIODICAL; Akademiya nauk SSSR. Izvestiya. Otdeleniye khimicheskikh nauk, no. 6, 1962, 1461-1463 TM(T: Using the method of A. K. Fischer, G. Wilkinson (J. Inors. and Nucl. Chem. 2. 149, (1956)) the ionic nature of the Ti bond in sandwich compounds was checked by reaction with FeC12) or Fe (II) acetyl acetonate, in argon atmosphere, and tetrahydrofuran solvent at*650C. Results: no ferrocene is formed from (C 5H5)2TiCl2P (C5H5)2T'(c6H 5)2v C 5H5TiCl 3; C5H 5Ti(oy 5 )C1 120 C5H5 Ti(OY 5)2C' or C5H5TI Card 1/2 LX;2H5  S/06 62/000/006/013/016 Data on the titanium B101 YB180 (synthesized for the first time, report printing). (2 ferrocene io formed from C 5 H5Ti(OC2H 5)3 and (C5H 5)2Ti(OCOCH 3)2' (3~ the ionic nature of the bond in C 5H5 Ti(OC2H 03 and (C5H 02Ti(OCOCH 3)2 was further demonstrated by the ease with which these compounds hydrolyze in the pre- sence of water at 60-600C. (4) The compound C 5 115Ti(OC2H 5)2Cl was synthesized for the first time by reaction between CH 3COCI and C H Ti(OC H I bop* 113-1140C/0-5 mm Hgo n 20 1-5812, d20 1.2253. There 5 5 2 5)3 D 4 are 2 tables. ASSOCIATION: Institut elemenioorganicheakikh soyedineniy Akademii nauk SSSR (Institute of Elemental organic Compounds of the Agadomy at RGLORGOR UPOR) SUBMITTED: February 17, IIQ62 Card 2/2  NESMVAROVY A. V.; NOGINA. 0. V-J DUBOVITSKIY, V. A. Alkylation of b4s4cyclopentadianyl) titanium dichloride by means of acetyl chloride. Izv. AN SSSR Otd. kbim. nauk no.12: 2254-2255 0 162. (HIRA 16:1) 1. Institut alementoorganichaskikh soyedinsniy, AN SSSR. (Titanium compounds) (Acetyl chloride)  -:77-71-71-1 -T-7-E i iACCIOSIC" NRI AP30OM24 TAWHOR: Neameyvj~"p An No; 0 ~-V TI nZ Cyaloyentaaerql ethw7 titanium big-W=nuinolinate) SOURM AN SSM* Izvestlya, Otdolwdye khimichaskikh nauk no. 32 19630 831-05 -i-TOPIC TAGS: -cyclopentadierql ethoxy titanium bia-(&-*xyTAw11mxte), d1propy1w- titanium bie~48-oxyquinolinateOp bia-(S-oxyquinolinate) titaniun'cocidej octaetho~q-. trititanium =Bra IMSTRACT: CVlopentadierql ethwq titanium bin-(S-, CfICO;Pr (VII), Inactive at U11CAM; I (Cool OWWO. 2.4-AcO(OX)CHXITsBr (4 0 and 2 11, KOAe in 20 mi. AcOU rtfluxed 2Z hrx., Us; mi2t. dild.,v!th 140, and rrcrystd. Kave 2.5 r. I,4-Ar(O,M)C.HC9tOAc Vill), in. 75-0* (frorn lUOU). - Hydrolyfis of 3.2 r. Vill its 40 nil. 301,,; &!c. 11C, by Wling 4 hrs., On RtOll dktil.. the "Sidue extd. with "I.. And the CJls removed ItI4 2 g, 2+100tNX41riC11,011 (IX',, yellow oil: P-nilrolcmst;am, tn. 2W-5. (from EtOH). CattilytIc reductirn of 1.8 x. IX in 60 mi. StOH with Pd-C (the rubstinct absorbed 925 nil. 11 in .10 inin.), the mixt. filtered, titt flitriste coned. in TT acid 14D-M') vrith MilliffrO irzv~ 111, M. 220~56 ~dccompn,) (from EMT). Sirulwly vrert prepd. V. enjor. Icts n"Ales, m, above 350" (from Jiro); VM. m. 177-8* (fror" UtOU); Vill, calorle-m m. IDG-7'. Er 5- riftro,-24utancurbattylate (XXT) (2.5 X.) in DW mi. abi. MR tt"ttd at 0* with CM ITjjNsll4JIjO. left 2 days at 0" the SON. trrAted with C, t e tOll Omd. in tuate, and the rWdue rcaystA. from FtOll xuve hninire VI which Was purified by sublinshin out tincli-togrd XXI;tttd recr~-.tg. ttie rcsiflut twice from EtOlf, yielding 9.0 g' VI, tn. 102-4",  'L~JhN. treateo wltjl o-10 j," jjxj,, 2.4-11012.4-11~ Rt 0,N)CH,(!Olj~jW 2 1 .26 Hydrotedatfou of 6 g. x in 2W MI. RtOAc ovw 10% Pd-C gave the IT'N comod. W), COWICSS aredles, m. 200-- I (from AcO .H). Hydr4yils of X1 witb aq. Mon pve (0 v ~-Cr11de`1v-iThkl1-'-wd.' fri;t~'WIAN WRIT as. moal icf6r.* le-,4, dewmv). 212-3'. 1 (3 g.) and 2,0 g, plithalic an- hydr;dc (XII) in 100 mi. HtOAc let stand 24 bm. at r0ofn (crap., the material filtered, and wzLifted with EtOAP i Afforded JVot acid, decompd. ISP,00* vvith Ps evolution, becoming solid, and then m. 215-20*. 1 Ht e3ter (3.6 It.) and 3 11. XII in W mi. EtOAc let ittnd overnight, the __cryxt. product filtered, and washed with MOAc pvt 4.7 r. Wa,-m. 17Q-83*-(deqompn.). . IV& If J') licatel I hr. -at 2W* and remstd. yielded V. m. 102-3 (f"a AcOll). Dentalation of 14a - I In sq. NatCO3 Inve 20 It, V1, In. -=--l (fmrn R(OAcl ~ p-II0~CCH-.CTIC.IT,NTi,.IICI (6 v.) and W mt PtOH treated 4 hm- with dry HCJ while waa- Ing an the water bath, the soln, cooled, the c*-3t. material filteted. arid *Whed with a MCC prolf ga 3 g. VU. TIC), 10FILtm TIM m. 2101 (decompn.).