SCIENTIFIC ABSTRACT SHOSTAKOVSKIY, M.F. - SHOSTAKOVSKIY, M.F.

AUTHORS. Shostahcvs!~Qr, L. F. , Chekulayeva, 1. -1. 62-2-12/28 TITLIE: Synt',,,e 34 s and Corvc-2-zions of the Vinyl of Ethanol- -,'ez vin-41ovykh efirov e'amol- -k:i._nes (Sin. aninov) . Rerjo_-t q: Quaternary A:.,:n.,~)nJ1_,.-L Salts of the Vinyl Ethers of El~,hano:i Axi-ines (3ocbshc1--.;,_4ye 0. Chetvarichn~,ye ammoniyovyye soli vinilovy'--h eflrov PERIODICAL: Izvestiya Y,-,i 53SIR Otdeleni~eXhi,,-icheskikh Nauk, 1955. ?Ir 2, PP. 204-209 (USSR)w ABSTRACT: T~ne invasti~.-ation of "'-e properties of the interaction pro- ducts of the alove-.entici,.,ed e-ti,el-s witil al-kyl halide-9 is a ratural continuation of thc ir,-,rcsti6ation of the reactiv- ity of the double bond of t-he vinyl ethers oil etllancl --nAines. This bond depends on. the nature of the amino Croup and ir, creases vi` t! ~ I. t"le repl_-~;ement of free hydrorens by alkyl- and phenyl-radicals. T'l-Ile imfluenr;(3 of the amino group can be ex- cluded by mcan-s of ar_'.'_JtJ,7-i c;o.,-mound of the alkyl halides to the nitro-en of the vinyl et!,~.-rq ef ethanol --m-4-nes. In the in- vestication the a,,,.thors -ased the vinyl ether of ll-(d--' ethyl- amino)-ethanol, t`ie. vinyl ether cfp,-(di-~~heiiyla-mi-no)-:-~thar-oI Card 1/2 and 'the trivinyl et',,er of 'Uriethanol am-ine. Taaternary  3ynthesis and Converoion-.. of Vittyl ~f Ztlianol- -Lmines. Report 9: ~~,uat,~,.-aary of th~:- V.Inyl Ethers of Lthano.' Amines. "12-2-12/26 ai:m,oni-dr, salts of /3-(d-,*-ethylr--~~--i--c~-,2t'.,ai-,ol, of the vinyl ether of and some derivatives of it (with CII-.~, C9IIJ and C,HrBi-) -wer- obtained. The aut,.ors in- ,~onver !e quaternary a=icnium salts "cst4Eated some tI of the vinyl ether of (3-(d-*.et,,Yln~-~-.-*L--,~o)-eth-atio'I (hydrolysis, -I'4-ft a', OCI, 1,S polymerizatilon., int:-aract--'-on -and crGanic acids). t'- 2 4 The authors exam ine~l 1; ~nt-eraction of the trivinyl ether of triethanol-a-mine, and ~h~ viny-,,. r,'h~~r of P-Idiirhery'lamino)- -etha-nol with me'Lhy! i-dide and There are 1 tablc ~.nd 5 refe2e,.,.ces, 5 ~Df ,-.rhicl, are Slavic. T ASSOCIATION: Institut-e for Or-anict Clhe,-Astry AN USSR ime-ni _,.D. Zel-;nsl,:iy (Institut Zel-tasio-c Akademii na"I 35bi) . SU37,=TED: Septe-mbe-r 25, 1(5' LITAILIM2 Library of Crn~-ress Card 2/2 1. Vinyl ethers of ethanol-ami-nes-Synthesis 2. Quaternary -qmmoniun salts  AUTHORS: Shosta-kovskiy, M. F., Dubrova, Ye. V. 62-5&-3-14/30 TITLE: Synthesis and Conversions of Divinyl Ether (Sintez i prevrashcheniya divinilovogo efira) PERIODICAL: Izvestiya Akademii Nauk SSSR Otdeleniye Khimicheskikh Nauk, 1958, Nr 3, pp, 339-343 (USSA) ABSTRACT: The above-mentioned ether has hitherto only been used in surgical practice. only after a thorough investigation of the divinyl ethers it is possible to evaluate the possibility of their use also in other domains. The authors occupied them- selves with the investigation of the properties ol this ether and found: According to its structure (CH2 - CHOCH = C112) it belongs to the simplest ethers. Under the influence of ferric chloride and stannic chloride it cannot be polymerized. In this paper it is shown that divinyl ether quantitatively splits according to the following scheme: HC1 thors de- CH2 - CHOCH = CH21 + H20 ===-~ 2CH30 Then the au, Card 1/2 scribe the properties of divinyl ether. The addition of  Synthesis and Conversions of Divinyl Ether 62-58-3-14/30 hydrogen chloride was performed according to a method already described earlier (Ref. 14). The reaction takes place in steps: 1. CH2 - CHOCH = CH 2 + HCl --)~CH2 = CHOCHCICH 3 2. CH2 - CHOCHCICH 3 + HC1 -4 CH 3CHC10CHClCH 3* In the case of addition of one hydrogen chloride molecule the authors obtained vinyl-d,~-chlorethyl ether. In the case of addition of 2 molecules of hydrogen chloride they obtained however,01.,,d-1-dichlorethyl- -ether. The chlorination was performed according to the method worked out for the synthesis of the oc-,P-dichlorethylalkyl- -ethers (Ref. 15). The authors synthesized and described: vinyl-gL-ethyl-ether, o(,(;C -dichlorodiethyl-o~,a.L 19, P1 -tetrachlorodiethyl- and aCrt! tetrabromodiethyl-ether. There are 16 references, 3 of which are Soviet. ASSOCIATION: Instititt organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (institute for Organic Chemistry imeni 11. D. Zelinskiy, AS USSH) SUBMITTED; Novetiber 9, 1956 Card 2/2  62-56-4-28/32 AUTHORS: Shostakovslciy, M. F. Kho;~on?_o, A. Kh. TITLE: Letters to the Editor (Pis'ma redaktoru) PERIODICAL: izvestiya Akademii Nauk SS3R. Otdeleniye Khinicheskikh Nauk, 1958, Nr 4, P. 519 (USsR) ADSTRACT: The forniation of diacetylene on the action of alcoholic alkali on 1,4-dichlorobutyne-2 was found already lonG aCo. The mechani sm of this reaction remained, however, unclear. Tile authors found that in the interaction of the nethanol solution of caustic potash with 1,4-dichlorobutyne-2 the latter(rcactin(; in its isomeric form of 2,3-dichlorobutadiene- -1,3) forms a number of products according to reaction con- ditions. The folloviin6 compounds were synthetizad: 1-metho,,:y-2t3-diclilorobutene-2, boilin~~ point-.5oo C(5 ml), d2o 1,2090; n2o 1,4910; 2-ch.orobutene-l-in-3, boiling point: 4 D Q Card 1/3 63-650C(76o nim); d~o 1,030; .2o 1,4720; 2-chloro-4-.riethoxy- 4 D  62-50-4-26/32 Letters to the Editor biitadicne-1, boilinL; Point: 50 0 C (3 mm) ; d2o 1,2179; 4 n 2o 1,4680; 2-chloro-4,4-dimethoxfbtitene-l,boilinC poii)t: D 660C(22 mm); d 2o 1,0262; n 2o 1,4535; diacetylene, neltinj 4 D point: -30' 0C;boili!i-,- point: 10 0 C;zj-methoxybutene-3-in-1, boilin,,-, point: 50 0 C(50 mm); d 2o 1,9113; 11 2o 1,4770;boiling point 560C (5o mrzi) 2o 4 2o d 4 0,8987; n D 1,z~820 and 1,1-dimethoxy- -2-butin, boilin- point:52-53 0C(12 umm); d 2o 0,9577; u - 4 n 2o 1,4359 (see formulae I to VIII). D Card 2/3  Letters to the Editor 62-58-4-28/32 ASSOCIATIO17: Institut or6anicheskoy khimii im. 11. D. Zelinskougo Akademii nauk SSSR( Institute for Or,-anic Chemistry imeni IT. D. Zelinskiy,AS USSR) SUBMITTED: January 17, 1958 AVAILABLE: Library of Congress 0 1. Cyclic co"unds-Synthesis Card 3,13  AUTHORS: 3hostakovskiy~,.)&...-~., Chekulayeva, I. A. SOV/62-58-6-33/37 Kbfidr~t"'ye'va', L. V. TITLE: Letter to the Editor (Pis1ma redaktoru) PERIODICAL*,- Izvestiya Akademii nauk SSSR, Otdeleniye khimicheskikh nauk, 1958, Nr 6, pp. 794 - 794 (USSR) ABSTRACT: Recently increased interest has been displayed by research workers in the chemistry of diacetylene. In the course of the present report the authors describe some of the peculiar features of the interaction between diacetylene and some aminoalcohols. It was shown that P-(4iethylamino)ethanol enters into reaction with diacetylene (contrary to non-substituted alkyl esters) without a catalyzer. On this occasion 1-(P-diethylamino)ethoxy- butene-in-5 (Formula I) with 80-90% yield is formed. Ethinylvinyl ester combines with the 2.molecule of P-(diethylamino)ethanol under more riaorous conditions. This causes the formation of: Di-(P-diethylaminoethoxy)buthadien-1,3 with 55-60% yield: Card 1/2 (C2H5)2N CH2 CH2OH 4 (C2H5)2 ITCH2CH2OCH=CH-CH=CHOCH2CH2IT(C2H5)2'  Letter to the Editor SOV/62-58-6-33/37 In the case of buthyl alcohol the following acetal, was obtained: CH 3 -C M C - CH(OC4H9) OCH2CH2 N(C 2H 5)2 . The structure of the compounds obtained was ascertained by means Qf hydrolysis and spectral analysis. ASSOCIATIOH: Institut organicheskoy khimii im. N.D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N.D.Zelinskiyj AS USSR) SUBMITTED: April 16, 1958 1. Acetylenes--Chemical reactions . 2. Amino alcohols--Chemical reactions 3. Spectrographic analysis--Applications 4. Cyclic compounds--Hydrolytis Card 2/2  AUTHORS: TITLE - SO'1",`62-=8-8 92 B~I-gdan3va, A V, Sho_----,ako-,skiy, 14. F., G. Irl. Invest~_gaticn -in the Fie Ld of Vlnylaryl Et ,r obla2~ 7, I P~~Iyme.cizza-,-~or c-f z1he SImple Vinyl Ethe_r o and P-Naphthol kSoobsh.-heL-_'Ye 7. po' i --cpolime-rizatsi-i pr,%s'.ykh tsiklogeksan,~,la, P-dekal:.1a _1 P-naftola) ers :,,- an-1 Radicai. Cyclohexa-.ILI, Ionnaya i radikal-ri-aya PERIODTCAI,: IZVeS-4ya Akadem~i riauk S33R, 0~.-deieniye khJmi:!hesk-kh na-_~,k, !9r,8, Nr 8~ pp. 990-991; (USSR) ABSTRACT: In pub!-L~ations there have hitherto been no notes concerning +he prolymerizatlon of viny-1-p-naphthyll- and vinyl-p-dezaly! ether urder the aotion cf the nitryl of- azcisobutyr1c acid. III the pre-yious papers the authors dealt with ihe polymerization of -inyl-phenyl and vinyl paraternary butyl-phenyl ether (Refs i-3) as Nell as with thei_r copolymerization with vinyl ether -and viny-1-butyl ether. The present Paper deals with the in- ,restigation of the conditions required for the polymerization Card and ;--c-pcLymerization of -vinyl- 0 -naphtkyl  5.0V/62-58-8---12,122 e S TE~ c L F--' :f Vinylaryl Ethez-~. N;Dte 7: Irn- and Radi;.a-l P~~ -"Yme-- -~ z at on -:;f 'llh e S --L mple Viny 1of Cy-,- Icl-lexan --, I , 5-Deoalcl -:*_ and and ether under- the action of BF31 the bp-.uz;:Yl pe-r~:.xide arad the nitrlie of the azoisc;butyric a2i'd. The ccni~ktions were found cq whi:;h the polymers of hemy:, v'~.kyl-,P-decallyl-and -vinyl-p-naphthyl ether band tne--'r C~,Dpo lyzer5) with viny.A- e1 hyl. ----.nyl-baty7- and vi-nyl-phe-ryl el-hex xav be produ--ed In go3d yield-m or, the acti-uzi cf the BF 3 ethe--a-te. Tn'e mal-,ority of these pc--Iyze:rs- cons,!.st.s of sc~-.'id I: could further be fz:und that, thle pzlymerizati--n ;:if v ny", -P-d-3calyl- and Y-'ny" -P-aaphthy' ether j-, - - I :)vi the a,-t-'.n cf beraz,.~Y*: and per.-xide of the b-atyric acid r-eed3 a g:reat amount (up to 6~o) of the faftlat,~;~.- m,,-~e heatirg and =~re time. The polyme:7 yield is small- ,y - I...exy---., and -v4ny--I:,he.,iyl ether urder the actlon of benzcyl, perGxide.. be in---,--uded Lntc thp m-3t'hy' elhers c~f tn--~ az~ry and metha,~ry' 4 c ac~ll d. 2. On ~h-~*.s -C-aL ccpc;ym9rs cf divers sTruc-1--res aze fcrmed Ci-d whi.", sircule -,!--,ny:, ethers to 44~7o').  SOV/62-5R-8-!2/22 !L-re3t..gation in the Field of Vinylaryl Ethers. Note 7: Ion- and Radical po' yM,:? r-Zat,*, on of the S4Mpj.e Vinyl Ether of Cyclohexanol, O-Decalo-, and A P-Xaphth_- 7. There are 6 tables and *10 referen0es, 8 of which are Soviet. ASSOCTATION: Inatitut organicheskoy khimi-' im. N. D. Zelinskogo Akadem,-' nauk SSSR (Institute of Organic Chemis-10-ry imeni X. D. Zeiinskiyj AS USSR) SUBMITTED: January 9, 1957 Card 3/3  SHOST.AKOVSKIY, 114. F. "Polyvinylpyrrolydone is obtained and how it is used as blood substitute" report presented at. the 10th All-UnIon Conf. on HighLy YKaecular CO=pounds.- Biologically Active Polymer Compounds, MOSCOW, 11-13 June 1958. (Vest. Ak Neuk essE, 1958, No. 9, pp. 121-113)  J'_UTH~O` 5: Prilezhayeva, Ye. 11., Shostakovskiy, M. F. SOVI/62-53-9-14/26 TITLE: S.,,,,nthesis Of SUlfUr-Containing Compounds on the Basis of Vinyl Ether and Acetylene (Sintez serusoderzhashchilch veshchestv na oanove vinilovykh efirov i atsetilena) Communication 16: The Mobility of the P-Alkoxy Groups in Ethylalkyl and Aryl Sulfides (Soobshciieniye 16. 0 podvizh -nosti P-alkoksigrupp v etilalkil- i ar-ilsullfidakh) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye nauk, 1958, Nr 9, PP 1104 - 1110 (USSR) ABSTRACT; There are many papers dealing with the hydrolysis reactions of P-chloro- and bromo-ethylalkyl (aryl) sulfides and Yperite (dichlorodiethyl sulfide) as well as the substitution reactions involving their halides. There are no papers, exce-ot that of Kretov (Ref 7), which deal with the sub2titution of alkoxy groups in P-alkoxyalkyl sulfides. As a result of their investigations the authors of this pl~per were able to determine optimal reaction conditions for the pre- paration of the products (contrary to M,_-r1:ovnikov's r-L,,1e% of the rcaction between vinylalkyl esters and mercaptars. Card 1/2 They were also able to prepare with -good yield a si~?r.es  S-,,nt~.esis of Sulf ur-ContaininC Compounds on t'ne 3asis of SC7, E2-~ Vin~,l Ether and Ycetvle~~P. Comiunication !6: The :.1obility of t'le Groups in Ethylalkyl and Aryl Sulfides of 1-alkoxy-2-alkyl (LTyi) mercaptans. It was sho-.-in that in 1--nlkoxy-2-alkyl(aryl) mercaptans the alkoxy Group can easily be replaced by chlorine. A series of -2-,alk.,,l(--rYl)mercaptans vere slynthesized acccrdin~~ to the followinE general reaction. C4H9OCH = C-'T2RSH ) C4H9OCH2CH2SR HC1 ; Clml2CH2SR. It is assumed that the reaction involving the formation of the ethylenesulfo ion occurs, which would then explain the dependence (found in this work) of the case of ex- chanje of the alkoxy Group upon the structure of other parts ol- the starting (reLctant) sulfide. There are 3 tables and 13 references, 5 of which are Soviet. ASSOCIATIO11,11: Institut or.-aniches-koy khi.,.qii im.2"T.D.Zelinskogo Ak'--~-"emii nauk SSSR (Inst itute of Or-anic Chemistry imeri N.D.Zelins~--Jy,."LS USSIR) SUBMITTED: February 8, 1957 Card 2/2  AUT'ORS: Sidellkovskaya, F. P., Zelenska-ra, SOVI/0`2-n8-9-1 5126 Shostakovskiy, ',. F. TITLE: St.=. -,. -irr -a~ - Lactones and Lactams (Issledovaniye v oblanti laktonov i laktamov) Communication 12: V,4r.,,rl Ether of Df-(p-o...yetiiyl)Pyi,i-olidorie (Soobs lic lien iye 12. Vinilovyy efir U-(P-oksietil)pirro1idona) PERIODICAL: Izvestiya Akadetnii nauk SISSR. Otdolcniye 4 1 1956, Nr 9, PP 1111 - 1116 (ITSr:F) ABSTRACT: During the last year val-ious nitrogen-containing vinlyl compounds with remarkable prooerties were synthesized. The authors of th 4S paper attempted to prepare the vinyl ether of N-(P-oxyethyl) lactam in order to study its properties and in order to compare the properties of the vinyl ethers of N-substituted O-ethanolamine with those of the vinyl lactams. The vinyl ether of ethyl) pyrrolido~e was synthesized. In addition the authors investigated the reaction between 9 -valerolactone and ethanolamine at 2000 C. Under the reaction conditions Card 113 the 6-membered ring apparently opens. Using the example  Studies ia the Field of Lactones and Lactams. SOV/62-r8-9-15/26 Com-munication 12: Vinyl Ether of N-(P-Oxyet-yl)Pyvrclidone of the reaction of the compound with butanol it was shown that the vinyl ether of IT-(p-oxyethyl)pyrrolidone combines with alcohols. Di-N-(ethylpyrrolidonyl)ace~al and butyl-11-(ethylpyrrolidonyl", acetal were isolated. The thermal decomposition of butyl-N-(ethylpyrrolidonyl) acetal was investigated. It was Shown that the vinyl ether of N-(0-oxyethyl)pyrrolidone combines with hydroJen chloride. The product formed is unstable and upon standing is tranTormed into the chlorohydrate of 1,1-(P-Oxy- ethyl)pyrrolidone. It was found that the vinyl ether of N-(P-oxyethyl)pyrrolidone polymerizes under the influence of the dinitrile of isobutyric acid vapor and hydrogen peroxide. It tends to polymerize thermally, but in the presence of 0,27o benzoyl peroxide (at 600 C) it does not polymerize. There are 2 tables and 9 references, 6 of which are Soviet.. ASSOCIATION: Institut organicheskoy khimii im.N.D.Zelinskogo Akade-mii nauk SSSR (Institute of Or-:-anic Chemistry imeni IT -. ; Card 2/3 G - -D.Zelinskiy )AS USSR)  V Chemistry of vinyl compounds. M. Y. Shosta (N;~g W111"'INI, -z-- P h ZAH Inst. On(. Chemed 0' w - u WkWoh).-A review TthcoViZences I refening to the viork of the author's lab. Vinylation by means of acetylene. is illustrated by examples. Thearticle deals with properties anda r ons.of following classes Of compds.: vin I a ethrLes;Y(htialogenatlon. addn. of sub- ces courg-LO Meli, addn. of org. acids, addn. of U-S tan moB~ S 'and mercaptans); vinyl aryl ethers; cc-methylvinyl alkyl ethers; vinyl ethers of ethanotamines; vinyl chlomstlanes., M,K vinyl sulfides; vinyl lactam "I(vinylpy-Midone, -psptn- 492c, and 1. it. Hftbr-  SOV/62-5,33- io-14/25 U TH C17 S Prilezhayeva, Ye. N., UVaroj,,a, IT. I. TITLE: The Synthesis of Sulfur Compounds on the Basis of Vinyl Ethers and Acetylene(Sintez sernisty1ch veshchestv -na osnove vinilovykh efirov i atsetilera) Communication 17. Vinyl Ether of 11onothioethylene Glycol (Soobshcheniye 17- Vinilovyye efiry monotioetilenglikolya) PERIODICAL: Izvestiya Al:ademii naul, SSSR. Otdeleniye khinicheskikh nau'.1 1958, Nr lo, pp 1245 - 1249 (USSR) ABSTRACT: In earlier papers (Refs 1,2) it was shown that the double bond in the a,0 position to the sulfur atom is considerably less active in ion reactions of the compound and in polymerizations, than the same bond under the action of the oxyjen atom. In the present paper the authors mention some data on the chemical be'lia-viour of vinyl etHer of monothioethylene glycol. its com-olete vinyl ether is of interest as it contains in one molecule both types of double bonds. In the Card 113 vinylation of monoetl,,,lene glycol its S-vinyl ether  The Syntliesis of Sulfur Compounds on the Basis of SOV'62-`,8-10-14/25 Vinyl Ethers and Acetylene. Con-.--unication 17. Vinyl Ether of L'ono- thioethyle~e Glycol is formed in Good y-Jeld: 1-vinyl mercapto-2-oxy-ethaneq which points to the rel--.tively hiGh reactivity (under the conditions of t',)e mercapto group as compared to thaL of the hydroxyl group). The obtained 1-vinyl morcapto-21-oxy ethnne has the same che.-lical properties of tlie not subst-ititted thiovini-1 etiler. I- the reaction with etIlyl nercaptane (in contrast to other thiovinyl etliers, Refs 1,6) an mixture of the combination products is formed. Under the action of din-itrile of the azoiso butyric acid a polr-.ner is formed with a t'.-ree-dimensional structure (by partly linking at the expense of the oxy groups, as this polymer can not be dissolved in any of the solvents under review). The authors showed that the double bonds in 1-mercapto-2-vinyl ethane under the action of oxy--er and sulfur are characterized by their easy ion reactions especially the reaction of the hydrolyzis in acid medium. There are 1 table and 9 Card 2/3 references, 6 of which Lre Soviet.  The S-rnthesio of Sulfur Com~ounds on the Basis of SOV/62-56-1 0-14/2r: Vinyl Ethers and Acetylene. 'Commiunication 17- Vinyl Ether of lllono- .j thioethylene Glycol ASSOCIATION: Institut orcanicheskoy khimii im.N.D.Zelinsko~;o Akademii naul: SSSR (Institute of Organic Chenistry imeni 1,.D. Zelinskiy AS USSR) SUB'JITTED: February 8, 1957 Card 3/3  AUTHORS: 4-Shostakov-1-i- F , Prilezhaywia, Ye. N., SOY/62-56-lo-15/25 Karava-yeva, V. rd. 'TITLE-. Synthesis of Sulfur Com-nounds From Vinyl Ethers and Acetylene(Sintez sernistykh veshchestv na osnove vinilo- vykh ef-irov i atsetilcna)Communication 1B. S-Vinylmercapto- benzothiazole(Soobshcheniye 18. S-vi-nilmerl-l-,-.-,)tobenzotiazol) PERIODICAL: izvesti-ya Akademii nauk SSS2. Otdeleniye khimi-cheskikh nauk-, 1958, Ur lo, pp 1250 - 1253 (USSR) A2STRACT: The authors were interested in synthesizinG vinyl sulfides havina nitrojen ato,,rs in the molecule, as well as to study their pro-perties. Memapto benzothiazole "Captax" which in the crystalline state has the thion form, at hi-,-her temperatures, however, and in alkaline medium easily passes over into tie thiol form was chosen as initial compound of the synthesis. S-vinyl mercapto benzothiazole was produced by the action of acetylene on captax. Besides, potassium mercapto benzothiazole was seDarated from the reaction mixture. Card 1/2 Potassium mercapto benzothiazole was used as cat-~llyst  Synthesis of Sulfur Compounds From Vinyl Ethers and SOV/62-56-10-15/25 Acetylene. Communication 18. S-Vinylmercaptobenzothiazole by which fact the yield of tille vinylation product could be incre':~ssed. In the vinylation the corresponding mercaptide occurs as catalyst, with the reaction of acetylene with the mercaptide ion determininj the velocity of the process. The other reactions of vinyl morc,apLo benzothi.-.zole are similar to the roactions of aliphatic thiovinyl ether. Finally the authors discussed the transformations of S-vinyl mercapto benzo- thiazole, as the reaction of S-vinyl mercapto benzo- thia-zole and sublimate as well as the formation of P-ethyl mercapto-S-ethyl mercapto benzothiazole. There are 3 tables and 9 references, 4 of which are Soviet. ASSOCIA=017: Inst-itut orC;anicheskoy khimii im.H.D.Zelinskogo Akademii naul: SSSR (Institute of Organic Chemistry imeni N.D. Zelinskiy kS USSIR) SUBLIMED: February 22, 1957 Card 2112  SHMIYU, SI[OSTfiYOVSKIY, M.F.; KAYIJTU!KO, L.A. Investigations in the synthesis and conversion of unsaturated silicon organic coupounds. Dokl. AN Azerb.SSR 14 no.9:687-689 158. (MIRA 11:10) 1. Ingtitut organichoskoy khimii All SSSR im. H.D.Zelinskogo i Institut nefti AN AzerSSR. Prodstavleno akaderaikom AN AzerSSR Yu.G.Mamadaliyevym. (Silicon organic conmounds)  SOV/74-27-10-4/4 kUTHORS: hkin, D. A., Vinogradov, V. L. kbiocicow) TITLE: The Unsaturated Silicon Compounds (Nepredellnyye soyedineniya kremniya) PERIODICAL: Uspekhi khimii, 1958, Vol 27, Tir 10, pp 1221-1256 (USSR) ABSTRACT: Early in this paper the authors deal with the importance of such silicon compounds which have alkyl or alkene groups at the silicon atom. In the USSR as well as abroad abundant scientific publications on the unsaturated silicon compounds are available. The first part of this report is devoted to the v1pyl compounds of silicon. In section 1 ihe fol'awing methods for the production of vinyl silane are discussed: a) the production of vinyl chloro- silanes from vinyl chloride and silicon by means of direct synthesis; b) the production of vinyl alkyl silanes and halogen vinyl silanes by means of de-hydrochlorination of the chloro- alkyl, silanes; c) cz-ganometallic synthesis of the vinyl oom- pounds of silicon; d) the organolithium synthesis; e) vinylation of the silanes by means of f) product-Lon of organo- si-licic vinyl ethers. In the second section the physical proper- Card 1/3 ties of the viny! silanes are disc-assed. Section th-ree deals  SOV/74-27-10-4j"t' T,h;~ Unaaturated Silicon Compounds with the chemical properties of the vinyl silanes: P-) inter- action between the halogen vinyl silanes and alcohols; b) reaction with ethylene chlorohydrin; c) hydrohalogenation; d) hydrolysis and cohydrolysis; e) combination with aidehydes; :F) combination with dialky1dithiophosphoric acids; g) combination with thiocyanogen; h) Friedel-Krafts reaction; i) cliene- synthesis; k) the combination with chloroform and tetrachlcro- silicon; 1) interaction with narbon oxide and hydrogen (oxo- synthesis). The seccr-d part of the paper treats the allyl com- pounds of silicon. Section 1: diverse methods for the production of allyl silanes: a) direct synthesis of the ally! chlorosilanes; b) organomagnesium synthesis of the ally! compounds of silicon; c) organolithium synthesis of the a- and P-alkenyl compounds of silicon; d) hydrogenation of the ally! chlorosilanes; e) pro- duction of halogen alkenyl silares 'by combination with butadiene; section 2: the physical proparties of the allyl silanes; section 3: the chemical properties of the allyl compounds of silicon: The interattion with hydrogen bromide and hydrogen iodide, with hydrogen chloride, with halides; hydrogenation of the ally! silanes, reaction with sulfuric acid etc. Part 3: Unsaturatel Card 2/3 organosilic--c compounds of "he acetylene series, section 1:  SOV/74-27-10-4/4 The Unsaturated Silicon Compounds methods for the production of organosilicic compounds of the acetylene series; section 2: physical properties of the organo- silicic compounds of the acetylene series. Section 3: chemical properties of the organosilicic compounds of the acetylene series. Part 4 of the paper deals with the polymerization and the copolymerization of unsaturated compounds of silicon. Section 1: polymerization. Section 2: copolymerization. There are 3 tables and 119 references, 70 of which are Soviet. Card 3/3  AUTHORS; 1,1- F. , Kulihakc--u~ 11-1. R. 79-28 -5-3/61 TITLE. investigation of the Substitution React-Jon of Oxyradi,7ials by the RadZ-als ef Orgar.;.!~ Magnesium Conpounds (Issledovaniye reaktsii cbmena oks.-L-radikalov Pa radikaly magniyoi,,Taninh,~.skikh soyedipeniy), I, Invest isa tior of ~he Reaction of M-Ixed Acetals (I.. Iss-jedovaniyp r(;,,-,kt,3--"onnosposobnt-)sti sme3h&nnykh atsetaley) PERI(DICAL: Zhurnal Obshchey Khimii- 1qq8, Vol. 28. Nr 3, Pp~ 578--964 (USSR~ ABSTRACT. in thp i)resenz. inl-e~tib-ation Grjznard~s reagen' is used in rrder t-c) d:~te--m' ine the mo"bi-I'Ay of oxyradicals in mixed a-,,etais, which problem ha~ nc-t been -investigla= tiad in plibli.,,ations until now. The characteristic feature of acetals is their high reactivity with simple vinyl e-,~LerG~; flsch~~,ne 1). As regards the structure of the mixed ac-ptals it wag founl by theTmai decornposi-ticn (Echeme 2) as w~-11 as by acco-rding to Card 1/3 -~hp ~~on met.-hod of diffase light- Ehat, e. g. mixed  Investi-ation of th-2 Subst'itulion Reac7,.for cf -3 -3/61 Oxyradicals by the Radicala of Organic Llagnesium Compounds - I. InvestiCation of the de,-,,rtic)n of Mixed Acetala alkylaryl'a~!--rala ran be present- _J'n two forms (scheme Aa reLxed acetals are constanTly demandirg greater th-.o= reti~,-al and practical interest the authors aet to the task of exac-~,!y investigating the mobility of their oxygroupq with the Gr~anard reagent. Three groups of Mixed acetals were sizbjected to th4i inwestigation7 that is to sayg 1. iLalkvl.,, 2. alkylaryl-, and i "h the action of magnesium alkylfata.-,~omatic acetals, Wit, bromobuty-1 on the same acetal no substitution of the ethoxy- an-d butoxygrovp takes place. In the reaction of magnesium bromobutyl -vi-.h ethylbeiczyla,.~atai and ethyl- pheayla~cetal alwuys only the efhylether of hexanol-2 f,cheme is formed. The act-ion of magnesium bromophe. nyl on ethylbuty1m... othylbenzy].- and ethylphenylacetal in all cases leada to ore Lind the same ether as main product (scheme 6)~ By their findings the authors come 1. to the conclusion that the mobility or reactivity of Oxyradioals of mixed aceta"s Js3 dependent on their elec= tron structure, which makes easier the splitting of the 0 &-- group as anion (ref. 5) under the formation of a carbonium ion,. (Srh _=~e 7)'_ Card 2/3 There ara- 8 referer?es. 0' of which are Soviet.  Investigation of the Subti"ttut.Lon fteactior~ of 79-28 -3-3/61 Oxyradicals by the Radicals of Organic Magnesium Compound.,i ASSOCIATION: institut organichaskoy khimii Akademii nauk SSSR i Azerbaydz.han.q-kiy selIsk:3kh-jzyaystvenryy institut (Institute for Organic Chemistry AS USSR and AzerbEydzhan Agricultural Institute) SUBMITTED- February '18, 1957~ Card 3/3  79-.28-4-23/6o AUTHORS. Shostakovskiy, M. F. Kulibekovq M. R. TITLE-. Investigation of the Exchange Reaction of Oxide Radicals With Radicals of Organomagnesium dompounds (Issledovanive re- aktsii obmena oksiradikalov na radikaly ma.-niyorganicheskikh soyedineniy) II. Interaction of the Grin-nard Reaffent Ylith Symmetric Acetials (II Vzaimodeystviye reaktiva Grinlyara s simmetrichnymi atsetalyami) PERIODICALs Zhurnal Obshchey KhimiiQi958,Vol.28,1Tr 4,PP-951-954 (USSR) ABSTRACT: In the present paper the authors investigated the effect of the Grignard reagent on symmetric acetals of the aliphatiep aliphatic--aromatic and aromatic series. They worked out synthesis conditions-for the respective monoethers, also comprising those difficultly accessible. Moreover, they. established the specific effect of single radicals of the Grianard reagent, which take part in th~ exchange reaction with symmetric acetals. On the basis of 6xperimentl data it can be stated with respect to the readtivity of symmetric acetals that, contrary to miied acetalov they show a number Card 1/3 of peculiarities, which are connected with the presence of  79-28--4-23/6o Investigation of the Exchange Reaction of Oxide Radicals With Radicals of Organomagnesium Compounds. II. Interaction of the Grignard Reagent With Symmetric Acetals identical oxyradicals. This produces a certain equilibrium of their molecules, at a disturbance of which the exchange reaction proceeds entirely smoothly according to the scheme ,OR X X C113 --- I'll, + He _~P CH~--CH -10 04d 01 OR OR 1". de-,otinr- a1c. ar or an aliphatic-aromatic radicals Three I-roli'lo of sy::.~metric acetals were employed in the investi- dialkyl~,-, diaryl:, andeymmetrieg aliphatic-aromatic acul,als, It .,!as found that the phenoxy group rea.:;ts most easi '~y, whereas the aliphatic-aromatio oxyradicale react considerably more difficultly, the alkoxy groups taking an intermediate position. For the first time were Bynthe- size4s The butyl-ether of 2-methylhexanol-5, of the second- ary phenylpropyl.- and phenylethyl alcohols; the benzilether of the socondary phenylpropyl- and phenylethyl alcohols; the phenylether of the hexanol-2 and dibenzilacetal. There are Card 2/3 1 table and 3 refe-rences, 3 of which are Soviet.  79-28-4-23/60 Investigation of the'Exchange Reaction of Oxide Radicals With Radicals of Organomagnesium Compounds. II. Interaction of the Grignard Reagent With Symmetric Acetals ASSOCIATIONg Institut organicheskoy khimii Akademii nauk SSSR i Azerbaydzhanskiy sellskokhozyaystvennyy institut) (Institute for Organic ChemistryAS USSR,and Azerbaydzhan In3titute for Agriculture) SUBMITTED, March 21, 1957 Card 3/3  AUTHORS: Shost.'aakovskiy. ff. F., Gracheva, Ye. P., 79-26-5-26/69 - ~~M Zay~ - - TITLE. Investigations in the Field of the Synthesis and Conversions of Substituted Vinylethers (Issledovaniye v oblasti sinteza i prev-rashcheniy zameshchennykh vinilovykh efirov) VI. Synthesis of o(-Iaethylvinylarylether and of OC -Methylvinylcyclohexylether (VI Sintez c~- -metilvinilarilovykh ic(,-metilviniltsiklogeksilovogo efirov) PERIODICAL: Zhurnal Obshchey Khimii, 1958, Volc 28, Nr 59 pp. 1253-1257 (USSR) ABSTRACT. In-face of certain unclear problems of the syntheses of ()(,-methylvinylarylether carried out by Ruhemann, Wragg (Rueman i Vreg) on the one hand (reference 1) and Niederl,, Storch (Niderl i Storkh) (reference 2) on the other hand, th's paper investigates more detailed the synthesis of ;e_methylvinylarylether and of oC-methylvinyloyclohexy-l- ~;ard 1/4 ether according to Favorskiy-Shostakovskiy.  Investigations in the Pield of the Synthesis 79-28-5-28/69 and Conversions of Substituted Vinylethers. TI, Synthesis of OC -Me thylvinylarylether and of 0(-Methylvinyloyclohexylether CH 3- C-=-CH+ROAr-RJM,7p QH 2~ f_OAr CH3 The use of methylacetylene as vinylation medium yields leas than that of acetylene in the vinylation of phenols (references 3,) 4)-',, This method isq however, the best a,--,cessible in the synthesis of the above mentioned etheri, The best results (yield and better avoidance of resinification' was obtained at a ratio of 1 molecule Cf phenol and I molecule of caustic potash (table 1). it was of interest to investigate the part of the allene (propadiene) in this vinylation reaction with methylacetylene, The allene is contained in the initial product (reference 5) and is the result of an isomerizat'lon CH3G5_CH,--4C.CH 2' According to Favorskiy (reference 6). card 2/4 the isomerization of the acetylene-and allene hydrocarbons  Investigations in ~.he Ivield of the Synt-hesis 79-28-"-,-28/69 and Conversions of Substituted Vinylethers, VI, Synthesis of c/ -Methylvinylarylether and of -Methylvinyloyclohexyl ether belong to rhose teing reversible. ln the present case J the equilibrium s displaced toward methylacetylene (at 2000 - 10% allene against 90% methylacetylene!). in order to explain the z,ole of allene under the gi-~ren conditions it was heated to 2000C in the autoclave_ with 50% caustic potash solution, in which case the allene converted into the methy'.'acetylene which was separated in form of acetylenide. From table 2 can be -loncluded that in the vinylation of the phenols wi.th allene and methylacetylene the allene can not be -onsidexed as ----J_nylatj. V - o -on medium,, but that it is isomerized to methylacetyisne which then supplies the actual vlnylatlon medium, The st-ructure of the synthetized C/1 -methylsubstituted ether was proved by hydrolysis. Thera ar~ 3 tables and 16 references, 12 of whiiah are Soviet. Card 3/4  Investigations in r~he Fieid of the Synthesis 79-26-5-28/69 and Conversions of Substituted Vinylethera. VI. Synthesis of J'-tie~l-hy-l-riny7-a:r,ylether and of CX -,I~le'thyl-u-iny-,L,~ycl-ohi~xy~e thsr ASSOCIATION, Instit-all. organicleskoy khi-mii kk~Ldemii nauk SSSR (Lmstitute for Organic. Chemist-ry AS US8R) SUBMITTED: April 24, 1957 uard 4/4  SO-~j;,79-28-6-22163 AUTHORS: Shostakovskiy, M. F., Kulibekov, M. R., Shikhiyev, I. A. TITLE: InvestiRation of the Substitution Reaction of Oxy Radicals by Radicals of Organomagnesium Compounds (Issledovaniye re- aktsii obmena oksiradikalov na radikaly magniyorganicheskikh soyedineniy) III. Conversion of Organomagnesium Compounds With Mixed Organosilicon Acetals (III. Vzaimodeystviye magniyorganicheskikh soyedineniy so smeshannymi kremniyor- ganicheakiini atsetalyami) PERIODICAL: Zhurnal obehohey khimii, 1958, Vol. 28, Fr 6, pp. 1539-1542 (USSR) ABSTRACT: In earlier papers (Ref 1) the authors investigated the effect of the Grignard reagents with respect to the mixed and asymmetric organic acetalsy and they found that in the mixed a-.atals the oxy radicals are in the first place substituted by the Grignard radical under the formation of ethers. With respect to the substitution of the oxy radicals in the sym- metric acetals the following sequence shows up: OAr > OAlk > Card 1/4 > OCH2C6H5* This rule was explained by the presence of a  -30V/ 79-28-6-22/63 Investigati'on of the Substitution Reaction of Oxy Radicals by Radicals of Organomagnesium Compounds. III. Conversion of Organo-magnesium Compounds With Mixed Organosilico-a Aoe+ala certain bond posi-t5ion, by which one of the oxy radicals be- comes more mobile. It was of interest to investigate an a.nalogeus zaaction for mixed organosilicon acetals (Ref 2) and to explain the influem e of silicon on the mobility of the oxy radioal in the acetalB. Different from the aliphatic- -aromatic at--etals the aliphatic ones easily are subjected to a symmetrization. The mixed organosilicon compounds are acompanied by a number of reactions in the symmetrizationp decom;-osll.ng on thermal treatment. On using the Grignard re-- agent with mixed organosilicon acetals the authors arrived at the clncluaio~n- that the oxy xadical containing a silicon atom, i6 su-'.fed for substitution, independent of the fact whether it j.,-z~ directly connected with the oxygen or whether it is in a remote positi..)r,. In either case the correspond- ing ethers are obtained (see scheme). Thus it was found that on the -,f the Grigna-ed reagent on the organosilicon ace4-als the followlug sequence of conversion is found: Card 2/4  3OV/79-28-6-22/63 Investigation of the Substitution Reaction of Oxy Radicals by Radicals of Organomagnesium Compounds. III. Conversion of Organomagnesium Compounds With Mixed Organosilicon Acetals CH3 05i CH ~Osi(c H ) 3 2 5 3/' C 6H5 OCH CH ===CH2 CH 3 CH 2- Si CH3 C 2H5 There are 11 references, 11 of which are Soviet. ASSOCIATION: Institut organicheskoy khimi-L Akademii nauk SSSR i Azer- baydzhanskiy sellskokhozyayetvennyy institut (Institute of Organic ChemistryAS USSR and Azerbaydzhan Institute of Agri- culture) SUBMITTED: May 2c, 1957 Card 3/4  Invesl,ir,atior-of the Subititution ieaction of SOV/79-28-b-;12/63 Oxy Radicals by- Padicals of OrEanomagriesium Compounds. HI. Conversion of Or,-anouagnesium, Compounds Nith ,,!ixe- I .1 Or-a.-Iosilicon -,cetLls 1. Grignard reagents,'herricial rpactions 2. Organic acids--Chemical reactions 3. Sillicon compounds (organic)-Chemical reactions Card 4/4  SH05TAKOVSKIY, M.F.; KULIBEKOV, M.R. Exchange reaction of oxy and hydrocarbon radicals in magnesium organic compounds. Part 4: Interactions of the Grignarol reagent with organic acylals. Zhur.ob.khim. 28 no.9:2339-2341 5 158. (MIRA 11:11) 1. Instit-at organichaskoy khimii M SSSR i Azerbaydzhanskiy sell- skokhozyaystvennyy institut. (Grignard reagents) (Icetic acid)  SHOSTAKOVSKIY, K.F.; GRACHEVA, Ye.P.; rULIBOVMCAYA, N.K. Synthesis and conversions of 4-substituted vinyl others. Part 7: Synthesis and conversions of(A.-chloroisopropyl aryl others. Zhur. ob. khim. 28 no.9:2341-2343 S 158. (MIRA 11:11) 1. Institut organichaskoy khimii AN SSSR. (Ethers)  SHOSTAFOVSKIYI-A.Y-; GRACHEVA, Ye.P.; KULIBOVSKAYA, N.K. Synthesis and conversions of4Lsubstituted vinyl ethers. Part 8: Various properties of o(-methylvinyl aryl andat-methylvinyl cyclo- hexyl others. Zhur.ob.khim. 28 no.9:2344-2348 S 158. (MIRA 11:11) 1. Institut orgenichaskoy khimii AN SSGR. (Ethers) (Vinyl compounds)  AUTIIG!:~S: Kulibekov, 1,11. R., SOV/1?9-28-lo-43/6o 'Or0an', P- K. I TITLE: S,nthesis of P-Chlorethyl-Phenyl Aceta.l (Sintez P-khlor- etilfenilatset--lya) PERIODICAL: Z~rarnal obshchey kh-imii, 1958, Vol 28, Nr lo, pp 2838 - 2838 (USSR) ABSTR2,CT: In previous papers (Ref 1), ild.F.Shostakovskiy and his collaborators investigated the reaction of vinyl allkyl ether with ethylene chlorohydrin, as well as some chemical properties of the P-chloro-ethyl-alkyl acetals synthesized in this process. In the paper under discussion, the attachment reaction of ethylene chi-orohydrin with vinylaryl ethers, starting with vinyl phenyl ether, is carried aut: Card 1/2 CH2~CHOC 6H5+ClCH2CH2OH CH5CH OC6H5 ~~ OCH 2CH2C1  Synthesi's of Acetal SOV/79-28-lo-43/(o On a closer study of this reaction it turned out that besides the formation of P-chloro-etlhyl-phenyl acetal, d its disproportionation into diphenyl acetal and P,P- dichloro-diethyl acef-al occurs according to the pattern: OC6H5 2CH3CH CH3CH (OC6H5)2 +CH3CH (OCH2 CH 2C')2 OCH CH C, 2 2 An anal"o.-ous phenomenon could be observed on an earlier occasion in the invest-i~Iation of the 0-chloro-ethyl- alkyl acetals (Ref 1). This is the first time that a description of the 0-chloro-ethyl-phenyl acetal is given. There are 21 references, 2 of which are Soviet. AS SO CLAT: 1011: Instit,,tt or,--Pnicheskoy khimii Akademii- nauk SSSR (Institute of Organic Chemistry at the AS USSR) SUKTITTED: July 29, 1957 Card 2/2  AUTHORS: Shostakovskiy, M. F., Kulibekov, Lt. R., SOV/79-28-lo-44/6o G6rban', A. K. TITLE: Synthesis of y,yl-Diphenyl-Dipropyl keetal (Sintez y,yl- dif O=Udip~ roy~uts a t4lya) PERIODICAL: Zhurnal obshchey khimii, 1958, Vol 28, Nr lo, pp 2839 - 2839 (USSR) ABSTRACT: In previous papers, Shostakovskiy (Ref 1) suggested a method for the synthesis of acetals of a great variety of structures, and investigated some chemical properties of these compounds. The paper under discussion served the purpose of a closer investigation of the reactions of P,pl-dichloro-diethyl acetal with Grignard's reaEent. Starting from the fact that this acetal constitutes at the same time an acetal and a halogen derivative, the authors could expect that it would react either as a halogen alkyl, or, according to the Chichibabin-Yelgazin reaction pattern, at the C-0 bond Card 1/2 (Ref 2). As a result of the investigation of this reaction,  Synti-,eois of Acetal SOV/79-23-1 0-i4/6o starti-.~E t`.e reaction of maenesium chlorobenzy! with P , ,"I -Ciichloro diet'-Ilrl acet al , it was shown that t,e reaction occiirs, accordim- to follo-a-in- pat' ern, at t-e expense of t~ie chlorine a '6 os CH CII(OCH CII,Cl),+2C H,Cd MIgC1 -4 CH CH(OCH CH CH C H 3 2 ~ -; 2 3 2 2 2 6 5 2' Thic experience runs ~:ountcr to '~he pre-~-ious inveoti,-ationo, by t',-- same authors (Hef 5), according to ahich the rC---LC-;I_ion of Gri.-narld's re-acent, with sy=etric and -,.-,i:ced ace-Uals not cont-.ininrr a holo,-e-n in the alcohol ra~14 -cals occurs at t1le C-0 bond. There are 4 references, 4 of viaic'. are Soviet. ASSOC !ATIO,'-. : Instit~'It or.-anicheskoy k-himii Akademii nauk SSSR (Institute of Or~,anic Chemistry at ti-ie AS USSR) SUB-.-IITTED: July 29, 1957 Card 2/2  SOV/79-28-10-45/6o AUTHORS: ShostakovBkiy, 11. F., Kochkin, D. A., ffeterman, V. A., Sidellkovskaya, F. Po' TITLE: Investigations in the Field of the Synthesis and Conversions of Oxygen-Containing Organosilicon Compounds (Issledovaniya v oblasti sinteza i Drevrashcheniy kislorodsoderzhasbehikh kremneor-anicheskikh soyedineriiy) On the Reaction of Vinyl Alkyl-Chloro Silanes With Vinyl Butyl Ether and Vinyl Lactams (0 vzaimodeystvii vinilalkil- khlorsilanov a vinilbuti~ovym efirom i vinillaktamami) PERIODICAL: Zhurnal obshchey khimii, 1958, Vol 28, Hr lo, pp 284o-28Al (USSR) ABSTRACT: It is a well known fact (Refs 1, 2) that vinyl alkyl-chloro silanes do not polymerize, and that if they do, they form polymers of low molecular weights. Their polymerization, either single or together with other unsaturated compounds, suggested itself. The authors found that vinyl alkyl dihalogens polymerize neither at high temperatures (100 , 200 hours), nor with catalysts. On the other hand, the unsaturated organo- r1ard 1/3 silicon compounds with a double bond in the middle of the  SOV/79-28-10-45/6o Investigations in the Field of the Synthesis and Converdons of Oxygen-Con- taininG Organosilicon Compounds. On the Reaction of Vinyl Alkyl-Chloro Silanea 1,7ith Vinyl Buty! Ether and Vinyl Lactams Card 2/3 silicon-carbon chain or *ith two conjugated double bonds tend to polymerization, either with the action of initiators or of lirht. Thus ethyl-dichloro butadiene silane C H Sicl CH= 2 5 2 =CTICH=CH2was changed, with the action of li.vht, into a trans- parent, caoutchouc-like mass, within five months. At room 0 temperatures and at 60 ,ro joint polymerization of the vinyl alkyl-chloros:Danes could be observed in the joint reaction of the vinyl methyl- and vinyl ethyl-dichloro silane pairs with vinyl butyl ether, vinyl caproUactam, and vinyl pyrroli- done,in the presence of azoisobutyro nitrile. In this case, the vinyl alkyl-chloro silanes act as initiators of the poly- merization of vinyl butyl ether, vinyl caprdlactam, and vinyl pyrrolidone. However, in the case of a reaction of vinyl alkyl- dichloro silanes with vinyl pyrrolidone, a small quantity of products containing silicon and nitrogen and probably con- stituting products of the reaction of these monomers, were obtained in addition to its polymers. Thus the monomer pairs do not, in effect, form a joint polymer. The polymers of vinyl  SOV/79-20.-10-45/6o Invectiffations in the Field of the Synthesis an.] Con-versions of Oxygen-Con- '.aining Organosilicon Compounds. On the Reaction of ',,'i-n,,rl Alkyl-Chloro Silanes With Vinyl Butyl _ether and Vinyl Lactauls butyl ether, vinyl caprollactam, and vinyl pyrrolidone re- sult as the main products of the reaction of the above-rnn- tioned compounds. There are 3 references, 1 of nhich is Soviet. AS30CIATION: Institut organiclieskoy khimii Akademii nauk SSSR (Institute of Organic Chemistry at the Academy of Scicnces,USSR) SUBMITTED: Au~Mst 17, 1957 Card 3/3  I "T 'T SOV/79-28-12 -34/41 D11brova, "~'P- .V. TITLI,',: S~' n the --i s ~)f '-)1yfn.,-ctiona-l Sulfur Conrmpound3 Starting Fr~-.l tho Di,.,inyl Etilier and hyrlro[;en Sulfide (Sintez poli- qerni7tylkh soyefiineniy na Osnove flivinilovogo efira i ~301,ovofllcjrola\ PERIOD7C~'..L: Zhurnal obshchey khit.--,ii, 1958, Val 28, Ur 12, i) ~ 3 3, 1 1- 3316 OSSRO A -2-'S T TZ C'.F' Earlier (Refs 1-3~ the ar.thors had investi~-,,ated the anom- ;,lous affiliation of hydrogen sulfir3e to the vinyl ethers and tl~~-i- found th%t linitrile of the azoisobutyric acio- ,,-.-as thc most efficient of all catalysts used. In this paper the affiliation reaction of H 2S to the divinyl ether is cai-rier? out in their presence. Some other affiliation reactiors to this ether _nre described as well: Halogenation and hydrohalo~3ei%ation (Ref 4), affiliation of CC1 4 (Ref 5). un this problem t"ere a~e only affiliations of H S to the diallyl ether and its homologs in the presence a? butyl a-ine to be- ir, publications. Harman and Vaughan (Ref 6) Card 1/3 obtained cyclic thiaxaneo and thiiazarez-., '~esddest the poly-  io:~i ti )f P,; I Jfunc t. io,.al 0111 f. I! v f'0,1~)Ourir~ 13 3 1,: rti:ij SOV/-0-28-12-34/41 Fv,~n! )-he D_iv~_Nyl -rid mc-rs of the Structure (-S-CII-Clf 2- O-Cif 2- C11) (Ref 6) I I CH 3 C11 At lov" increased pre.-sure and under ultra- viol-A irr:.~i,-Aion viooous prnducts of ssunc pr:~,.ctticaal .1 ~j 0 r t!---.. r! C u(Scne-o 1) wer3 obtained according to data .,_-ie_,Aio,ned in 1-;Aents (Refs 7,G). The authors carried out the reaction of 119S with diviryl other in the presence of t1h,- (~initrilc 5f -izoisobutyric ac-id. 'fhis reaction took ,place un.1er the fo:riation of a m-1--ture of chain- nl-p dithLols of dif,'erent com:)L3oition (Scheme 2-a,b,v). The for7lation of co-i.-~oun-~ (III) can be explained by scheme The r,-0T%)O1tr,,`O (I---!I) were obtained with a great f S (T:-,ble 1). The formation of cyclic and poly- Q ~ U2 - not observed. Varying the conditions !)f t-n- initial i-irodvzcts sulfide dithiols could be obtained in (;uantitier, (II, III). Y193 was used in liquid state. Th-,i, the dit'hiol ~-.d sulfide dithiol were synthesized, and it that these compounds have a still greater C_~,rd 2,'_~ tonrlerc J, Y 'o %110,7.t~loiio nffiliation to the double bond than  Synthes! s of -'o1,, fimct io- al Sull",'.r compoi- cis St,--rti:.C, SOV/79-28-12-34'41 Fro:~l t-o and 1T.;dr,-Z;en Sulfide thiols have. Some dithio- and trithioethers (V) were s.-nt.hesizod. There are 2 tables and 14 references, 9 of w' -Ach are Soviet. S ~) 0 C T 10 7': Institut or,-,anicheskoy khimii Ak--demii n--uk SSSR (Institute of Or:-in-,~ Chemistr~.r of the Aca~-1e--Jy of Sciences USSR) 1. rfove,iber 16, 1957 Card 3/15  SHOSTAK S~K KOTRELEV, V.N.; KOCHKIN, D.A.; KUBETSOVA, G.I.; BoRrsum, v.y. Synthesis and various conversions of tin and silicon organic compounds. Zhur. prikl. khim. 31 no.9:1434-1436 S 158. (MIRA 11:10) l.Inatitut organicheskoy khimii AN SSSR i Gasudarstvennyy nauchno- issledovatellskiy i proyektny7 institut promyshlennosti plasticheskikh masi. (Tin organic compounds) (Silicon organic compounds) I  AUTHORS: Shastakmak~y, 11, Shapirc, E. S., Shmonina,, L.I. 20-1-32/58 TITLE: Chlorination of Diacetylene (Khloriroyaniye diatsetilena). The Synthesis of Hexachlorobutadiene-1,3 (Sintez geksakhlorbutadiyena -1,3). PERIODICAL.' Doklady MT SSSR) 1955, Vol- 118, Nr I., pp. 114-116 (USSR). ABSTRACT: The haloidation~--reaction of diacetylene is well investigated in the example of the bromine-addition (reference 1.). But there are no data on the chlorination. For this purpose the authors worked out a method.', the reaction takes place in the medium of carbon tetra-chloride at -30 - 25'0. Liquid and crystalline 1,1,20,4,4-hemachlorobutene- 2 forms.. Its geometrical isomers were isolated and are known (reference 2). They are supposed not to react with chlorine and bromine. The authors, however, succeeded in performing a further chlorination of the hexachlorobutenes with liquid chlorine under pressure and ultra- violet Mumination. In the case of large chlorine excess (4-8 and more 111ol.) they did not notice any chlorinolysis; and obtained octachlom robutane with a quantitative yield. A subsequent dehydrochlorination of the latter led to the synthesis of hemachlorobutadiene-1,3. This is a substance valuable in many commercial respects. Regarding this Card 1/2 production (references 3.4) there exist patent applications (although  AUTHORS: Shostakovskiy, M. F. Bogdanova, A. V., 20-3-29/59 .-Ushakova, T. -W.-- - TITLE: Vinyl Compounds in the Diene Synthesis (Vinilovyye soyedin- eniya v diyenovom sinteze). On the Diene Synthesis of Thio- vinylether With Cyclopentadiene and Hexachlorocyclopentadiene (0 diyenovom sinteze tiovinilovvkh efirov a tsiklopentadiyenom i geksakhlortsiklopentadiyenom). PERIODICAL: Doklady AN SSSR, 1956, Vol. 118, Nr 3, PP. 520-522 (USSR). ABSTRACT: In an earlier work (reference 1) the authors proved that the simple vinyl ethers (CH2= CH-OR, where R is an alkyl-, aryl- or saturated hydro-aromatic radical) can take part in the diene synthesis with cyclopentadiene and hexachlorocyclopenta- diene as a philodiene compound. Other facts from this field follow (references 2,3). The authors continue the systematic investigation of the syntheses mentioned in the title as the thiovinylethers now became accessible (reference 6). The first two mentioned authors (reference B) reported a greater tendency to the reaction according to the radical mechanism of the vinyl-aryl-ethers than to that of vinyl-alkyl-ethers. The Card 1/3 latter also occur more easily in the diene syntheses (reference  Viny4Compounds in the Diene Synthesis. On the Diene Synthesis 20-3-29/59 of Thiovinylether With Cyclopentadiene and Hexachlorocyclopentadiene. PRESENTEDi July 25, 1957, by A.V. Topchiyev, Academician SUBMITTED: July 24, 1957 AVAILABLE: Library of Congress Card 3/3  Bo-danova, A. V. .-'lotnikova, G. I. f'! -fil T The Interaction Between Diacetylene and -1thyl Merc~ptaa-n, and Some Properties of the Compounds Obtained (Vzaimodeystviye diatsetilena s etilmerkantanom nekotoryye svoystva poluchennykh soyedineniy) P]IIII07DICAL: Doklady Akademii nauk SSSR, 1958, Vol- 12o, Nr 2,, Pp- 301-304 (USSR) Several ethynyl-vinyl-ethers (References 1,3) were pro- duced by synthesis on a diacetylene basis. They are interesting from the point of view of their reactivity and the possibility of producing 1-alcoxy-butadiene-1,3 (Reference 4). It was interesting to investi5ate the interaction mentioned in the title, as publications on this -,)roblem are restricted to one sin.-le patent men- tioned (Reference 5). The authors obtained this inter- action already on slight heating; under the influence of alkali the reaction already begins at room tempera- Card 1/4 ture and is accompanied by self-heating. There are  I Thc- int,_~raction Betyeen Diacetylene and Ethyl 604/ 2o-12o-2-2o/ ..crc-_-.)tan, and Some Pro-jertics of the Com-oounds Obtained Droofs that the first stage of the interaction under review takes place according to an ionic mechanism. According to the ratio of initial substances and the temDerature the reaction follows scheme (I) or is accoia- panied by the formation of ethynyl-vinyl-thioethyl- -ether and a product of the addition of 2 mercaptan- -molecules ahich has a butadiene-structure Cscheae (IID. The interaction takes a stepwise course, as the second sta3e can also take place independently ,,,ith another morcaptan. The addition of mercaptan to the ethynyl- -vinyl-thioethyl-ether may take place under the influence of different rea~7ents (allrmli, HC1, rad-ical-initiators and heating). In the last 2 cases the yields of the firial product are higher. Thus this addition reaction takes place more advantageously according to a radical m-echa- nisn, than accordin" to an ionic ciechanism. The chief ).ro-. t> ducts in this connection are dithio-alkyl-butadiene-1,3. A certain difference of the physical constants and a strong exaltation of the molecular refraction of the Card 2/4 addition Droduct of 2 mereaDtan-molecules to diacetylene  W, -,~e Inturaction Between Diacetylone and Lthyl 6OV12o -12o-2-2o/63 1..:-rcuptan, rid Soi.,ie Propertiej of tile Compounds Obtaired is apparently explained by the presence of 2 Isoneric com~lounds,, others than those vith a butadiene-st-ructure also being possible among them. Ethynyl-vinyl-thi-oethyl- -ether reacts with a sublimate solution in alcohol and quantitatively forms ethyl-mercapto-mercury-chloride ', an equivalent amount of HCl and apparently ethyl-viltyl- --ethyl-ether. Thus this method can be employed for the determination of ethynyl-vinyl-thio-alkyl-ethers. In a kind of experimental part details of the reactions-, constants and yields are describedunder conditions of: a) interaction of diacetylene -,,,ith ethyl-mercap- tan; b) decomposition of ethynyl-vinyl-ether and the product with 2 mercapto -groups by sublimate solution in alcohol (table 2); c) hydrolysis of the latter ether and the 2-mercapto-.aroup product in the presence of sublimate (table 3); d) interaction of ethynyl- -vinyl-thioethyl-ether -vith ethyl-mercaptan and thio- phenol (table 4); e) condensation with maleic an- Card 3/4 hydride.  The Interaction Between Diacetylene and Ethyl SOV/2o-12o-,2.-2o/63 -ercaDtan,and Some ProDerties of the Compounds Obtained There are 4 tables and 9 references, 7 of which are Soviet. ASSOCIATION: Institut organicheskoy khimii im. N. D~ Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. ZelinskiY LS USSR) '? PRLSENTED: January 8, 1958, by B, A. Kazanski-y, Member, Academy of Sciences, USSR SUBIMITTED: January 7, 1958 1. Ace-tyllenes-Zhemical reactions 2. Thiols-Chemical reactions 3. 71'thers--Synthesis 4. Cyclic compounds--Properties Card 4/4  IONIDI, Parikl Petrovich; SHOSTAKOVSKIY, M.F., doktor khimicheskikh nauk, otv.red.; BA-.'WA--O-V, V.G., doktor filosof.nauk, otv.red.; KOMPANATIRS, A.I., red.izd-va; BRUZGULI, V.V., telchn.red. (D.I.Mandeleev's world outlook] Kirovozzrenie D.I.Mendeleeva. Moskva, Izd-vo Akad.nauk SSSR. 1959. 374 p. (MMA 13:1) (Mendeleev, Dmitrii. Ivanovich. 1834-1907)  NO i I A 1p. I jt 9-1 Ila A ~an R I ilk M 811 A.  50) SUV/062-59-1-21/38 AU-1` H 0 _~ 3 Sho Chek-ulayeva. I. A. TITLC: Synthesis and Trans f or-_-.ations o-*:' Vin7,1 Ethers cf Lt,-.anol ~ZJ.-.es (Sintez i T)rnvrasbcheniya vinilovy'r-h efirov ellanolaminov),Co-m- munication lo. Free-radical Poly:.-~erizfition and Copolymerization of Trivin,,rl Ether of Triethanol Aminc(Soobshchleniye 10.Svobod- noradikallnaya polinerizatsiya 4- sopolimerizatsiya trivinilovogo efira trietanolamina) PLUODIM: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh, nauk, 1959, Nr 1, PP 130 - 153 NSSR) A.BSM', CT: In the present paper the authors investigat~_-d the polymerization 1.1 and ~ CHOCH CH of trivinyl ethers of triethanol amine (CH ) 2 2 2 3 its copolymerization with nethyl mieth3crylate under the inflorence of benzoyl pQroxide and dinitrile of the azoisobutyric acid aiL, determined some laws governing t~,is rEaction. The reoalts of the investi-ations aru given (Tables 1 and 2). It was found t.-~,t the polymerization of the respective vinyl ether -and its copoly- merization with m-ethyl methacrylate are not initiated by berz-,.l peroxide. The polymerization and copolymerization of trivinyl ethers of triethanol amine with uIethyl methacrylate was carried Card 1/2 out in the Dresence of dinitrile of azobutyric acid. It was  Synthesi.,3 and T ransf ori,.iat ions of Vinyl EtherL, of Ethanol SOV/'62-59-1-21/38 Amincs. CoMmunicition 10. Free-radical Polymerization and Copolymerization of Trivinyl Ether of Triethanol Amine stated that primarily threddimen;zional -oroducts are DroLuced therein. Poly.-,,ers and copoljmers -,,;e---e hy6rolized 'I.-ith 2Ulf,1riC acid of 2,;',j at 200~ The authors fcund that they contain free vinyl groups. The prod-acts of hydrolysis possess also a three- dimensional structure. The. results of the hydrolysis are pre- sented in table 5. There are I fi~-~ure, 3 tables and 7 Soviet references. ASSOCIATION: Institut orjariic'~ik~skoy khirrLii im~ N, D. ZelinSkcgo AkadepLii nauk SSSIR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SUBIMITTED: April 16, 1957 Card 2/2  5(3) SOV/62-59-1-22,'33 AUTHORS: Shostakovskiy, lil. F., Gladyshevskaya, V. A~) Chekulaye-va-, -1. -- TITLE: Synthesis and Transformations of Vinyl Ethers of Ethanol Amines (Sintez i prevrashcheniya vinilovykh efirov etanol- aminov) Communication jT. Some Features of Copolymeriza- tion of Vinyl Ethers of the P-Aminoethanol and Methyl Esters of Methacrylic Acid (Soobshcheniye 11. Ob osobennostyakh sopolimerizatsii vinilovoEo efira P-aminoetanola i inetilo- vogo efira metakrilovoy kislaty) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh n~-.ulr-j 1959, Nr 1, PP 134 - 139 (USSR) ABSTRACT: Since the dinitrile of the azoisobutyric acid, unlike ben7).-,,! peroxide, includes not only :,ethyl methacrylate but also the vinyl ether of P-aminoethanol in the polymerization (Ref 2) the authors investijated the copolymerization of these substarces under the effect oil dinitrile of the azo- isobutyric acid. It was shown that the interaction of the components mentioned is complicated. Apparently three Card 1/3 compounds participate in the copolymerization: vinyl ether  Synthesis and Transformations of Vinyl Ethers of Ethlinol SOV/62-59-1-22/38 Amines. Communication 11 - Some Fe--ttures of Copolymerization of Vinyl Ethers of the P-Aminoetha-nol and !,methyl Est~trs of Methacrylic kci-O of p-aminoothanol, methyl 7'ethacrylate and the prodnct of their interaction, i. e, the mothyl ecter of P-(P- vinyl oxy-ethyl) arninoisobutyric acid. The latter io fcir~-,n according to the equation CH2=C11OCH2CHNH2 +C112=C(C113)COOCH3 -4 CH =CHOCH CH ITHCH C!I(CH )Cocni 11.1rin- th~' reaction 2 2 2 2 3 3 ' so that its concentration in the syntem remains unknown. The participation of the three components in the copoly- merization leads to the formation of 2 fractions of the copolymer for each ratio of the initial monomers, (Table 1). The process investigated is complicated by the flact that besides copolymerization and addition also condensation takes place. This is a result of the fact that besides multiple bonds also other functional groups of the initial components participate in the reaction, which leads to the formation of copolymers zith three-dimensional stri-.cture. In addition, the polymerization of methyl ester of P-0- Card 2/3 vinyl oxy-ethyl)amincisobutyric acid and its copolymeriza-  Sl-,nt'kesis and Trai-.sfor-:!.'ions of Vinyl Ethers of Ethanol SOV/62-5n-1-22/_',8 Amines. Communication 11 . Some Features of Copolymerization of Vinyl Ether!3 of the G-Aminoethanol and il:pthyl Esters of 11e~~hacrylic Acid tion with methyl methacr.,late under the influence of di- nitrile of azoisobutyric acid (Table 3) wei,e carried out. There are 3 tables and 6 references, 2 of which are Soviet. ASSOCIATION: Institut organichesicoy khimii im. INT. D. ZelinskoSo Akademii nauk SSSR (Institute of Organic Ch-~mistry imeni N. D. Ze- linski,r of the Academy of Sciences, UY.'2) SUBEITTED: May 6, 11057 Card 3,13  5G) sov/62-59-2-21/40 AUTHORS: Shostakovskiy, M. F., Bogdanova, A. V., Krasillnikova, G. K. TITLE: Investigation in the Field of Diacetylene Derivatives (Issledovaniye v oblasti proizvodnykh diatsetilena). Communica- tion 2. Some Transformations of Alkoxy-butanes and Preparation of 1-Alkoxy-butadienes-1,3 (Soobshcheniye 2. Nekotoryye prevrashcheniya alkoksibutanov i polucheniye 1-alkokai- butadiyenov-1,3) PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye khimicheskikh nauk, 1959, Nr 2, pp 320-326 (USSR) ABSTRACT: In the present paper the &composition of the 1,1,3-trioXY- butanes synthesized by the authors and some transformations of products of their thermal decomposition were investigated and a method of synthesis of alkoxy-butadienes-1,3 suggested. A noticeable thermal decomposition of trioxybutane begins at r-200 0, butyl alcohol, 1,3-dibutoxy butene-1 (IV), its dimer and the partly polymerizing 1-butoxy butadiene-1,3 (I) being separated. 1-butoxy butadiene-1,3 (I) was also obtained on the thermal decomposition of (IV) which indicates a gradual proceed- Card 1/3 ing of the reaction. 1,3-dibutoxy butene (IV) obtained on the  SOV/62-59-2-21/40 Investigation in the Field of Diacetylene Derivatives. Communication 2. Some Transformations of Alkoxy-butanes and Preparation of I-Alkoxy-butadienes-1,3 decomposition of tributoxy butane may be regarded as a P-sub- stituted vinyl ehter. It really displaces some properties of vinyl ether. On its hydrolysis the alkoxy group in the y posi- tion is split off and vinyl acetaldehyde (VI) formed, it reacts intensely with gaseous hydrogen chloride and forms a-chloro-y- butoxy-dibutyl ether (VII). On hydrogenation of 1,3-dibutoxy- butene-1 under usual conditions alcohol is split off, but no dibutoxy-butane is formed. On condensation of 1-cyclohexoxy- butadiene-1,3 (II) with maleic acid anhydride the copolymeriza- tion of the anhydride with butadiene took place in addition to the formation of an adduct. An apparently regularly built polymer was separated therein. By means of condensation of 1-alkoxy-butadiene-1,3 with croton aldehyde methyl-alkoxy- tetrahydrobenzaldehyde was obtained. In addition to the thermal decomposition of 1,1,3-trialkoxy-butanes the hydrolytic cleavage of these compounds was investigated. On the hydrolysis of 1,1,3-tributaxy-butane (X) and 1,1-dibutoxy-3-phenoxy-butane (XI) 3-butoxy-butanal (XII) and 3-phenoxy-butanal (XIII) were sepa- Card 2/3 rated. It was found that the hydrolysis on permanent heating is  SOV/62-59-2-21/40 Investigation in the Field of Diacetylene Derivatives. Communication 2. Some Transformations of Alkoxy-butane3 and Preparation of 1-Alkoxy-butadienes-1,3 accompanied by separation of the alcohol molecule and the formation of vinyl acetaldehyde (XIV). This indicates that in the aldehyde the formation of the alkoxy group in 0 position is not stable as compared with trialkoxy-butane. In the latter this group is split off only on continuous heating up to 2200. There are 12 references, 4 of which are Soviet. ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SUBMITTED: may 31, 1957 Card 3/3  Investi~~atiori in the Field of Lactone,-- -and Lactams. SOV/62-59-3-20/37 Communication 13. Alkoxyetk-;-lidene-pyrrolidones An increase in temperature up to 850 provides a good yield of ethylidene-bis-N-NI-pyrrolidone (Experiments 6,1o). Experi- ment 2 shows optimum conditions for the formation of butoxy- ethylidene pyrrolidone and experiment 9 for the formation of isopropoxyethylidene pyrrolidone. The most comfortable method of synthesis of' alkoxyethylidene pyrrolidones as well as of alkoxyethYlidenc caprolactaris is the interaction of LL-chloro- ethylalkylethers with lactami.,-. This reaction,however, exhi- bits a number of peculiar features for pyrrolidone. The yield of alkoxyethylidene pyrrolidones, for instance, is small, further, in addition to them ethyli(lene-bis-11-NI-pyrrolidone is always formed. Certain differences may be observed also on the thermal deCOMDOSition of these tro compounds. On thermal decomposition of alkoxyethylidene caprolactams viny1caprolactam is obtained in high yield (70-80 %). On the other hand it is not always possible to obtain vinylpyrrolidone on decomposition of alkoxyethylidene pyrrolidones. On decomposition of butoxy- ethylidene pyrrolidone vinylpyrrolidone in a , 40 % yield and butanol were obtained. On decomposition of iscpTopoxyethylidene- Card 2/3 pyrrolidone isopropyl alcohol, pyrrolidone, and ethylidene-  Invccti(~ation in the Field of Lact0n(M ,_~nd L.-ictanl. sov/162-1j9-5-20/37 Communication 13. Alkoxyethylidene-pyrroli(I-)nc-n -bis-l-T-NI-pyrrolidone were separated. The thermal deCOMDOSi- tion of ethylidene-bis-N-~ll-pyrrolidone takes place at con- siderably higher temperature than the decomposition of alkoxyeth.ylidene lactams. As result of this decomposition pyrrolidone and a resinous residue were separated. There are 1 table and 8 references, 5 of which are Soviet. ASSOCIATION: Institut or;~-anicheskoy khimii im. N. D. Zelinckogo Akademii 0 nauk SSSR (Institutle of Qrg~nic Chemistry imeni N. D. Zelin- U__ skiy of the Academy of Sciences, USSR) SUBMITTED: June 21, 1957 Card 3/3  5(3) AUTHORS: Shostakovskiy, M. F., Sidellkovskaya, SOV/0'2-59-4-29/4+2 -T -P., Zelenskaya, M. G. TITLE: Reaction of Propylene Oxide With a-Pyrrolidone (Reaktsiya okisi propilena s a-pirrolidonom) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr 4, PP 738-740 (USSR) ABSTRACT: This is a brief report on the investigation of the reaction of a-pyrrolidone with propylene oxide. In this case the oxide ring opens in a way so that a secondary alcohol is formed: CH36HCH 26 + ITHCO(CH 2 )3 - CH 3CH(OH)CH2tCO(CH 2)3 The structure of the N-(P-oxypropyl1,.t-pyrrolidone obtained was proved by the synthesis of y7buiyrolactone and amino- isopropanol. The aminoisopropanol reouired was obtained from ammonia and propylene oxide (Ref 3). Upon interaction of N-(P-oxypropyl'1c*-pyrrolidone with thionyl chloride the hydroxyl group was substituted by chlorine and N-(O-chloropropyl) *pyrrolidone obtained. Upon heating with Card 1/2 aqueous alkali this chloride is hydrolyzed (Table),  Reaction of Propylene Oxide With a-Pyrrolidone SOV/62-59-4-29/42 although, more slowly than the IT-(chloromethyl) *pyrrolidone obtained earlier (Ref 4) which saponifies quantitatively at room temperature even in the absence of alkali. Upon heating of N-(P-chloropropyl) *pyrrolidone with caustic potash in benzene solution, HCl was separated and N-(propenyl)44-pyrroli- done formed. The position of the double bond was determined by spectroscopy. This investigation was carried out by T. N. Shkurina. There are 1 table and 6 references, 3 of which are Soviet. ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogc Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SUBMITTED: July 24, 1956 Card 2/2  50 hq 9 ~t-tk W7 _ 1 ~,Ljon j c, n ill ~ ;,on com7 - V OnO laIrt Of -Jnclirk~ct v oblast 1 , 0 is-10 " 7f - 0' by th ic,,T)r Lpcta.-I " " -:If.,a Viny . a -prO n t eZ n ka - ~-oobsliche li., I tion ro-Ismi"'n vc, ,inogc : . -Os nauk, k otde"jniye nau P-demil 0 5 C. r~ a~:r 5, PP -ms tl the gr:)V-D , the cac -. :.-an be in e cu 0,1- a c t into the -, o by tho n " f G C H 9 - ., 1 4 ------ ci 0 ICE 2  'CV/' I n u i c- ! ~I o f -ra co n c r, n-n d 1-, 4 1 -,rrithez;is of Vinylc,~,,prolact-~-, b-.- h e, 'o -1 0 1 n i r 0- c t C CH 4 9 The proces2 is accompanied by 0-.. v..'aic'n t'-.c. ylelc nf thio o-anrl i~ p r,~~duced. This Dapar Fives a detailed investi,gation ~~f thf-~rlnal devom:;Ositio-n of in or~jer '.o -L-2.-pro-ve the conditions af s--i-AI-Mis of tile r and J sorro-r.---y- U ',I-.Yl i-Ionecapro 1 -IT,! aere us,.a.,.i as examples in t:ac t, i n,, -2 s ", ication of the reactic~n3. Capz-olactam and iso'Dropyl ether were the initial Dvoducts of V)e Da hilgxhe'st yielil -,,;as obtaincil -hen the tro subst-~.V-Ices sho,,7cd a ratio of I : 2. Thermal decomposition was investigatI)d T.-t 2CC-2-900. I~t *he same time the cor-responding alcohols ~--nd vinylcnprolacIUpms are formed. The yield of vinyl c nl)rolact .1.1'10rc-~iscs if the decomposition takes place in the nresozic'.-- Of C-,.j I hydroquinone; it then amounts to if  Inve2 ti-:-, tion in the Pield of Ln.ctones f~-rl Lactr-'_m2- c - ti.:Dn 1 A OC _.etl'ir_,,. of S.-all ''l-IrM 'i"il-3 o r* concent-rr- "'ny ~,lrt.inl li.vlrolysis. Tlle~ synthoses a,-,,-' ~:ieth-)ets of 2r~~ ~:~scribed in dctni' in thr, f~-c: Tlier,? are 1 tr blo and :) Soviet :,~-ff ;C; Ins t tut organic' es':c.,;- '-h- mi i D. 7el no'.-o-, ~'Mdemii nalik SSSR (Institute of Orglanlc Ch2imi n-i-Iry imeni 'cl!. D. -eli,13ki,, of the kcademy -of 7,D J1.11Y 1r), 1057 V-11  'hos ski- f. F. Vasil"Yov, P P . . T K'LE: Invc-st--*IsTa~ion in the Field, 1,13c-tloncl and a c. ia o'nlasti lphtoncv -i of ai6 Thei r ~oobshchoni -r -r,-, -oarp-ty o v 1, r.01c"u" yarno,-o ve c; a z io la"ai %i s "-iye PERICI)ICAL: Izvesti7ra ~kaaemii nru.r 33~j"R. -~tdeleaiye i)--) ~9;'-OOCO (T`1711) !C59 5 , , A T -A C T' "Block, T-) o 1 ym e r i z a t i n nof vinyl pyrrol idone under ~'-c of 0 an,7. of dinitrile o.L' so:)Ir-ic acid, ani 2 i~i -3up-wis solutions ~Rofs 3, c~) had been investig;itced ~t instiul.:Ac :ao-ntiGnee ~mder '~s3ociation. in connectic-n tin il-- -properties of various preparaticn-~~ ::7~- U.L one 'T'-P) ,-P-re investigated in h i s -.y o:r< because those proporties very imtortant for t h nvestigation o--.' t 'n .3 'oioI:)-ic nctiv4 ", c-,' t, 6 J- .,,c.  Communication 15. -rorarr.,Aiona Pf Polyvinylpyrrolidones Diff'r1rent. '."`ei,htr, Pronertios. .10 C.-In be obtained in vrriou5 therefore, ..ICY "MI. Q'I-Jjilnilt slight fleviations fro.,.-, their physico- C'IC-nLCn".I C7h'qr'--CLeri3tic3. (Table 1:. physico-che-Acal cl"f".ractcristics D'V (.'~IIIP) solutions ns produced in wirious noua'ri'as). The poly.-(ierization conlitions for (PVP) from ,. f, !.3 0 and with " u-2ous sol-,tions in the presence of 30 ' 112 2 C-~'3-0-5 -;r) concentrations of this initiator are suTmarized in table 2. The c'iar,~1.c ter istic s of salt .,rater solutions of (FVP) bairvc, as a plasr-.-iosubstitutc are ohown in table 3. Relative v*oc,ossil,y, osmotic pressure, and the molecular weight of the .rarious freparations were daternIned. A comparison of the L charr.cteristics shows that those of (PVP) are more effective thaa those of the plasmosubstituta. 1.3 11 0 had to be used 2 2 .,iz initiator in order to obtii-Ti -. highly effective polyner. The -7etermination of the 7iwlecular -.-.~!-i6ht -and the polyp i Ly of th;-% of several pr3parations 7,howed that the block polymers have E higher -Isgree of T.-olydiz-.persity than those ob-tIzaincd -iv solutions. -loreover,  ''L. scv/62-59-5 .Lnvc:,t-sz-a~A,:.-1 4r- thc ?i-ld of Lactoncs -"-no~ Lac'-:ir, -20/40 of Polyvirylzyrr~,- 1 i done s 'Havin- Diffferent Holecr.l~,.r and Th~ir Ph,,sicom-chemical Prc-perties a mc-'-hod for obtaining biologically active sterile salt Trater solutions of the preparations lia:3 been ro-rked out. There are 2 figures, -cables, an-.' 21 references, 12 of which ?re -)oviat. AS30CIAT137i: Instlt,,it or!~-,--,nicheskc- klhimii im. !~.. D. Zelinsko--O Alcademii 1 10 nauk Si-SR (Institute o.-:' Organic Chemistry ivicni IT. D. z,olinskill of the Academy of Sci,*mces, USSR). SUBTJITT:~D: 7-, 1`~, IS"57 CP L".1  50) AUTHORS: Sidellkovskaya, F. P.,-Zelenskaya, I. G., SOY/62-59-5-21/40 Shostakovskiy, M. F. TITLE: Investigation in the Field of Lactones and Lactames (issiedovaniye v oblasti laktonov i laktamov). Report 16. N-Mothylol-lactames (Soobshchenive 16. N-Metilollaktamy) r PERIODICAL: Izvestiya kkademii nauk SSSR. Otdeleniye khimicheakikh nauk, 1959, Nr 5, PP 901-903 (USSR) ABSTRACT: In this paper the synthesis of R-methylol-lactames of the following structure was investigated: Methylol pyrrolidone M (CH 2)3 CONCH2OH and N-methylol caprolactame (II) (CH 2)5 CONCH2OR, and some of their properties were determined. The authors of the present paper showed in a previous one that in the case of an action of a 30 % formaldehyde solution upon pyrrolidone and caprolactame the following is produced in an alkali medium with a vield of 70 90 % (I) and (II): 7 Card 1/2 ~--(CH 2)n COkH + CH20 -OH (CH 2)n C"C'2 OH (Ref 3).  Investigation in the Field of Lactones and Lactames SOV/62-59-5-21/40 Report 16. N-Methylol-lactames This scheme is to be proved. For this purpose, the reaction of these compounds with thionylchloride OHCH N(CH 0 + SOC1 ClCH 14CO(CH HCl + 80 2 dnC 2 2 2)n + 2 was investigated, and the compounds N-chloromethyl pyrrolidine and N-chloromethyl caprolactame were obtained with a yield of ~80 ~o. The chlorine content of these compounds was determined by titration according to the method developed by Volhardt (table), and it was shown that the chlorine atom in these compounds is easily saponified. Both synthesis and investigation are described separately in the experimental. There are 1 table and 6 references, 2 of which are Soviet. ASSOCIATION; Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SUBMITTEDs July 26, 1957 Card 2/2  50) AUTHORSs Shostakovskiy,._14. F., Prilezhayeva, Ye. N.,SOV/62-59-5-22/40 Gershteyn, N. A., Karavayeva, V. if. TITLE. The Synthesis of Sulfurous Substances on the Basis of Vinyl Ethers and Acetylene (Sintez sernistykh veshchestv na osnove vinilovykh efirov i atsetilena). Report 22. On the Reaction of Vinyl-ethyl Sulfide With Benzoyl Peroxide (Soobshcheniye 22. 0 reaktsii viniletilaullfida s perekislyu benzoila) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr 5, PP 904-909 (USSR) ABSTRACT: The reaction mentioned in the subtitle is investigated. It develops strictly exothermically and begins without previous heating, the reaction product being formed practically completely from the initial producti The corresponding thioacylal (1-ethylmeroapto-1.2 dibenzoate ethme) ..'SC2H5 (C6H5COO)2 + CH 2==CRSC2H5__il G6H5CODCH2CH \OCOC6 H5 Card 1/2 The character of the reaction products is shown by table 1.  The Synthesis of Sulfurous Substances on the Basis SOV/62-59-5-22/40 of Vinyl Ethers and Acetylene. Report 22. On the Reaction of Vinyl-ethyl Sulfide With Benzoyl Peroxide The reaction is so rapid that no polymerization of the vinyl-ethyl sulfide cannot take place. The benzoyl peroxide can therefore not be used as initiator for this polymerization. The simple radical may, however,lead to a slow low polymerization of the vinyl sulfide (system of equations 2 - 7) which develops in form of a chain reaction. Furthermore, it was possible to carry out polymerization with ditertiary butyl peroxide also with formation of low-molecular polymers. It was, however, not possible to obtain affiliation products. In the experimental . the individual syntheses and reactions are described. There are 2 tables and 14 references, 7 of which are Soviet. ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SUBMITTED: July 30, 1957 Card 2/2  5 (3-) AUTHORS: Shostakovskiy, M. F., Kondratlyev, Kh. 1. SOV/62-59-6-15/36 TITLE: Investigations in the Field of Synthesis and Transformations of Oxygen Containing Silicon Organic Compounds (Issiedovaniye v oblasti sinteza i pTevrashcheniy kislorodsoderzhashchikh kremneorganicheakikh soyedineniy). Communication B. Synthesis and Study of the Properties of Low Molecular Ethers of the Methyl-a-naph%lsilandiol (Soobahcheniye 8. Sintez i izucheniye svoystv nizkomolekulyarnykh efirov metil-a-naftilsilandiola) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh naukq 1959, Nr 6, PP 1041 -- 1046 (USSR) ABSTRACT: The different possibilities of synthesizing the derivatives of the compound mentioned in the first title, which are well known from publications, are dealt with in brief (Refs 1-11). The synthesis carried out by the authors is based upon a possible analogous reaction (Ref 14) between alcohols and silanols (Refs 12,13 polysilicon acid with alcohols), and is carried out by reaction between silandiols and alcohols, which was not yet described in publications. This reaction is of both theoretical and practical interest. As the aromatic silandiols are only Card 1/3 weakly acid, they react with alcohol without catalysts. This  Investigations in the Field of Synthesis and Trans- formations of Oxygen Containing Silicon Organic Compounds. Communication 8. Synthesis and Study of the Mole~cular Ethers of the lgethyl-a-naphtlWlsilandiol SOV/62-59-6-15/36 Properties of Low property was investigated with the compounds mentioned in the title and buthylalcohols. The following was obtained simul- taneously: dibuthylether of the methyl-a-napht-kVisilandiol M, dibuthylether of disiloxane (II), dibuthylether of trisiloxane (III), and an imperfect buthyl ether of tetrasiloxane (IV): CH3 CH3 CH3 I) ~U 4119031 - OC4H9; 1, 'C4 Hq-OSi - 0 -S' - 0C4H9; a-C 10 H7 aC 10 H7aC 10H7 CH CH CH 13 t 3 1 3 III nc4H9_031 - U - 3i - 0 -Si - OC 4H9 1 1 1 aC 10H7 aC 10H7 ac 10"7 Card 2/3 IV containing another more Si-O.  Investigations in the Field of Synthesis and Trans- sov/62-59-6-15/36 formations of Oxygen Containing Silicon Organic Compounds. Communication 8. Synthesis and Study of the Properties of Low Molecular Ethers of the Methyl-a-naphthylsilandiol The reaction scheme is given. The yield in the compounds men- tioned depends upon temperature, mi-xing intensity, the ratio of initial components, reaction time, and upon the pressure applied. Thus, it is of considerable importance with respect to the yield that the synthesis of di-n-buthylether is carried out in a vacuum. The syntheses are described in detail in the experimental part. The results obtained within the course of the synthesis (separation of the products and determination) are given in tables 1 and 3. Table 2 contains the physical cha- racteristics of the different substances that were synthetized. There are 3 tables and 15 references, 8 of which are Soviet. ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SuBml=-- D: Au6-.zst 5, 1957 Card 3/3  5 (3) AUTHORS; Shcstakovski Bogdanova, A. V., SOV/62-50/-8-35/42 Plotnikova, G. I. TITLED Letter to the Editor PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr 8, p 1505 (USSR) ABSTRACT: The authors state in this letter to the editor that they were able to synthesize the bis-thiobutadiene into disulfones while preserving the diene structuret starting from the synthesis (Ref 2) for the first time carried out by them of bis(alkj-lthio)- and bis(arylthio)-butadiene: C6H5 SCH=CH-CH=CH-SC6115 (1) C6H5S(o 2)CH'CH-CH--CH(02)Sc6H5 (10 2 O~~ C2H5 SCH=CH-CH=CH-SC2H 5 (111) C2H5S(o 2)CH-CH-CH=CH(02)SC2H5 (IV) Physical data and elementary composition of the two compounds are gi'ven. There are 3 references, 2 of which are Soviet. Card 1/2  Letter to the Editor SOV/62-59-8-35/42 ASSOCIATION;: In.9titut organicheskoy khim-Ji im. 11. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy, Academy of Sciences, USSR) SUBNIITT.'~',D. May '1. '1959 Caxd 2/2  5 (3) AUTHORS: Shostakovskiy, M. F. , Mamedov, fillageram SOV/62-59-9-19/40 I TITLE: Investigations of Vinyl-substituted Ethers. Communication 1. Synthesis of a-Substituted Vinyl Ethyl Ethers PERIODICAL: Izvestiya Akademii nauk SSSR. Otdelan-iye khimicheskikh nauk, 1959, Nr 9, pp 1636 - 1639 (USSR) ABSTRACT: There are two courses of synthesis for vinyl ether of the general structure of CH 2-7 -OR (R,Rt = alky! of the aryl) R1 a) condensation of the alcohols with alkyl acetylene, b) by sepa- ration of HBr from P-bromo alkyl ether. The following Soviet au- thors are mentioned in the course of discussing the appropriate publications: Favorskiy (Ref 1),S='x_kamEy and Gracheva fRef 2), Petrov (Ref 9), Isagulyants and Maksimova (Ref 10). In the present paper the authors followed the second method and werked accord- ing to the following scheire: Card 1/3  Investigations of Vinyl-substituted Ethers. Communication 1. SOV/62-59-9-19/40 Synthesis of a-Substituted Vinyl Ethyl Ethers Br CH 2=CH-OR > CH 2Br-CHBr-OR (1) CH Br-CHBr-OR R'Td9x CH Br-CH-OR (2) 2 2 1 R' CH Br-CH-OR _HBr ) CH =C-OR (3) 2 KOH 2 1 Nesmeyanov, Lutsenko, Vereshchagina (Ref 11) also obtained a-methyl vinylbutyl ether according to this scheme. The warming- up rate had a large influence on the reaction. The separation of HBr improved with slower heating. For the first time they ob- tained P-bromine-a-ethyl diethyl-ether, a-propylvinyl ethyl ether and a-isoamyl vinylethyl. ether. The structure was proved. There are 1 table and 13 references, 7 of which are Soviet. Card 2/3  Investigations of Vinyl-substituted Ethers. Communication 1. SOV/62-59-9-19/40 Synthesis of a-Substituted Vinyl Ethyl Ethers ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences, USSR) SUBMITTED: December 27, 1957 Card 3/3  5(3) SOV162-59-9-z6l4o AUTHORS: Shostakovskiyf M. P., Chekulayevaj I. A., Kondratlyeva, Lo 70 TITLE: Interaction Between Diacetylene and Amines PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh naukq 1959s Nr gs p 1690 (USSR) ABSTRACT: The authors report an addition of amines and diamines to diacetylene, by means of which various nitrogen containing unsaturated compounds were also obtained in good yields without use of a catalyst. Hitherto, compounds of this kind were mentioned once only in patent publications (Ref 2), for the synthesis of which catalysts were applied. Primary amines form N-alkylcliamino-1,4(-1,3)-butadiene-193 (Yield 80%) with diacet5dene. Secondary amines form N,N-dialkylamino-l-buten-l-ine-3 (Yield 60%) with diacetylene. By addition of a second molecule of amine, these compounds give 1,4-diaminobutadienes. Diacetylenes can also add diamines, giving compounds of various structures according to reaction conditions. The structures of these compounds were Card 1/2  Interaction Between Diacetylene and Amines SOV/62-59-9-36/4o confirmed by means of hydrolysis, diene synthesis, and spectroscopy. There are 2 references, 1 of which is Soviet. ASSOCIATION: Institut organicheskoy khimii im. N.D. Zelinskogo, Akademii nauk SSSR (Institixte of Organic Chemistry imeni N.D. Zelinskiy of the Academy of Sciences, USSR) SUBMITTED: June 6, 19q9 Card 2/2  ~_n : ! ~81 SOV/6_22-59-12-25/41 3 S. S,,,o.--~akovski y, M. F. , Gladyshevskaya, V. A. , Bay' ova., R. I. V4 s co s T r F, Ity Constant for Vinyl Ether Polymers .4, F F. r DA L TZV~-Sj:iya Akaderriii nauk SSSR. Otdelen-iye Ichimicheskilkh riai-,,k 1959, Nr 12., op 2204-2207 (USSR) Si~a,,'Idinc~erls equat-ion 7~P/C = Kmm allows one to determine -,he vdiscosiry constant only in the molecular weic-ht range Crom 500 -,--o 50,000. Higb-molecular-weip-ht compounds con- sis~~inn- of a mixture of polymeric homologs give on frac- ionation, narro-w' polymer fractions but not individual- polymers, and this influences the value of K m obtained equal--ior for polymers above 50,000 molecular we2gh-. The authors suggested therefore a method for de',ermining the viscosity of poly(vinyl alkyl ethers) based on the study of low-molecular (di-, tri-, 'Letramer, ccrnpounds obtained in the multistep synthesis previo-usly described (this journal, 1955, p 140; ibid., P 3LL,' such as, -1,1,3-triethoxybutane-1,1,3,5-'Uetra-  -cnczan-, for 'linyl Ether Polymers 7yu 8 1 S 0 V/6 2 - 9 - 12 - 2 5 li-I 3 3 'his method allows one to OJ-oxyheKane, etc,. , etc. I 1,,,h ~.he most exac 'L relationship between structure, vlseosiLy, and molecular weight of polymers. vl-~c.'--ziity and K m .10 of individual compounds and, f'--)r ~,,),iioavative piu-poses, those of the corresponding frac-ons, -ere determined and tabulated. T'ne c, I w ii n ~7 e- r e i n v e s t ia e d : 10% s c 1 u t i --% n s o f 3 - t~-_iet"~oxybutanej l,l,3,5-tetraethoxyIqexane; 1,1 3,5,7- pentaet-iioxyoctane; 1,1,3,5,7,9-.~iexae'Lhoxydecaiie; 7 -1.,!.,3,-),,,9,11-heptaethoxydodecane; and 1% solutions of pc,ly~vinyl ethyl ether' fractions (in acetone, and CC!),,); 10% solutions of 1,1,3-triisopron- oxybutane.: '-,1,3,5-~~.ef-i,alsouropoxyiexane; penlaisopropoxyoctane (in acetone and heptane); 2,1,3,,5-te~-rab,,-..toxyh-xane; i.)-,3,1~-,7-oeritabt,,toxyocta,,ie; and 1% solutions of poly butyl ether) (in acetone, heptane, and CC1 j 4)' J.-. f-__-Ind chat there ,bias no bond formation between -he investilgattled compounds and solvents, U as ~-:_-denced b,-Vr t'-)e time of outfl'ow of t'ne solutions  Constan~ -~'or VinY7 Ether Polymers 77o8i sov/62-59-12-2r--,/43 which was governed -in 'all cases by a definite rule, and as evidenced by the coinciding values of the viscosity constant's for the individual alkoxy compounds and fractions of a given vinyl alkyl ether. The only deviation was observed in triethoxybutane (dimer) and -.etraethoxyhexane (trimer) caused probably by the influence of the terminal group. The mechanism of vinyl ether polymerization, and the influence of the chemical structure of the polymers alkoxy groups on the viscosity constant K m is discussed. Generally speaking, the constant increases with the allcoxy group. There are I U.S~, I Swiss, 6 Soviet. F. Fordlyce, H. Hibbert, J. Absi--acteris Note: appears in the artiCle also 3 S C I ATII~N- N~ D. Zeli-nsl,.-.iy Institute of Aca6-emy of Sciences, USSR (Institut imeni N. D. Zelinskogo Akademii B M 1` 1 H D: April 15, 1958 increasing radical size of 9 tables; and 8 references, The U.S. reference is: Amer. Chem. Soc., 61, 1912 Staudinger's e~uaion in the form: r = K M. sp/ , M Organic Chemistry, organicheskoy khimii nauk SSSR) Card 3/3  5.361o,5.-3,100 77o82 sov/62-59-12-26/43 AUTHORS: Shorygin, P. P., Shkurina, T. N., Shostakovskiy, M. F., Sidellkovskaya, F. P., Zelenskaya, TITLE: Spectroscopic Investigation of N-Vinyllactams and Anilides PERIODICAL: Izvestiya Akademii nauk SSSR. 0-1-deleniye khimicheskikh nauk 195.0, Nr 12, pp 2208-2212 (USSR) ABSTRACT: Spectra of N-vinyllactams and anilides were studied, and the mutual influence of groups was investigated. Vinyl- lactams contain the sy6tem C=C--N-C---O; the examination of the interaction of atoms and groups can be simplified, to the first approximation, by considering the effect of the N-atom on C==C and C=O bonds, as well as the mutual interaction of the double bonds. Raman and U-V-spectra of vinylpyrrolidone, vinylpiperidone, vinyleaprolactam, of various anilides (formanilide, acetanilide, etc.), and of simpler molecules containing an N-atom and a carbonyl group (pyrrolidone, N-butylpyrrolidone, Card 1/3 caprolactam, dimethylacetamide were taken. Spectrograph