SCIENTIFIC ABSTRACT BAKHSHIYEV, N. G. - BAKHTADZE, I. D.

Ullivel-sal 5/o5l/62/012/005/003/021 L032/1';514 of phLhalamitle, tierivatives. The formula is Leotind to be in Lzood agre%!iaent with experiment. Pre'sent results indicate that the tiieovy given in the above paper is capable of providing is -;at',-;factol'y qW-111titiltive (1XVIallatioll of tile expol-iment 1 a d(!P('lldejlCe of t;lU Stokes shift ill tile fluorescent spectra oil tile nature of tile molvetit for a large group of aromatic compounds. There 4re 7 figures and 1 table. SUBMITTED: March 23, 1961 Card 3/3  S/051/6U/012/005/007/021 9195/E485 AUTHORS, flit lihshiyev, N.G., Klochkov, V.11.*, Neporent, U.S., TITLE: Absorption and fluorescence of' the vapourj4 of anthracene and its derivatives PERIODIC,%L: Optika i spektroskopiya, v.12, no-5, 1962, 582-585 TE.XT The absorption and fluorescence spectra, fluorescence yields and oscillator strengths of anthracene (1) and six of its meso-derivatives were measured. The derivatives were: 9-methyl anthracene (IT), 9,10-dimethyl anthracene (III), 9-phenyl anthracene (IV), 9,10-diphenyl anthracene (V), 9-diacetyl-amino-anthraceno (VI) and 9-acetyl-aniino-anthracene. The results show that the transition from anthracene to its derivatives is accompanied by a spread in the absorption and fluorescence spectra. This spread is more proaounced in aryl derivatives than in Alkyls. the oscillator strengths of molecules in vapours arc frequently larger than thoso of molecules in solutions. The oscillator strengths increase with increasing temperature. At relatively low temperatures the oscillator Card 1/;  S/051/62/012/005/007/021 Absorption and fluorescence E195/E485 strength in vapourn in nearly identical with that in solutions at room temperature. The closeness of the oscillator strengths of' 9,10-diphenyl anthracene molecules in vapours and solutions suggests that the temperature has a small effect on the absorption of this compound. Measurements of fluorescence yields after excitation by mercury light (313 and 365 MU) are given in Table 2. These data do not agree with those previously obtained by B. Stevens (Trans. Farad. Soc., V-51, 1955, 610)4' G.A.Kundzich and A.A.Shishlovskiy (DAN SSSR, V-97, 1954, 429). This discrepancy requires further checking. ' There are 1 figure and 2 tables. SUBMITTED: April 8, 1961 Card 21t 2 ,  5/051/62/013/001/002/019 E039/E420 AUTHORS: Neporent, B.S., Bakhahiyev. N Go Lavrov, V,A. Korotkov, S.M. TITLE: The effect of medium on the properties of the electronic spectra.of complex molecules during the gradual transition from vapour to solution. PERIODICALs Optika i spektroskopiya, V-13, no.1, 1962, 32-42 TEXT: The position and width of absorption and fluoroBc'ont spectm in 3-mothylaminophthalimide are examined with change in concentration of ethor in the range from 0 to-58 x 1020 molecul g/cm3 during the transition from vapour to the liquid phasol i.e. 220 --4 20'C. It is shown that all the spectral characteristics investigatedchange monotonically with concentration of other and that there is no sudden change during the phase transition in the solvent. The results are fully tabulated and are also shown graphically. The dielectric constant changes from 1.0 at 220*C to 4.3 at 20*C whili the Card 1/2  UMHM-i, E.G. Universal molecular interactions and their effect on the position of electron apeotm of molecules in two-component solutions, Part 53 Dependence of spectra on the electrio propertiesS dimensions, and structure of the molecules under study, Opt.i spektr. 13 no.1:43- 51 J1 162. (MIM 1527) (Molecular spectra)  s/oci/62/013/002/001/014 E032/E514 AUTHOR: Bakhshiyav, N.Q. TITLSt inti-a-ri'a-6-18cular interactions And their effect on the position of the electronic spectra of molecules in two-component solutions. VI. Dipole moments and the structure of molecules of some derivatives of phtlinlantide in the ground and firist excited o1actronle states PERIOPICAL.- Optilca -k aliektrookopiya, v.13, no.2, 1962, 192-199 TEM The re4jilts of previous papers (Ref.l: Opt. i sipektr., l0a 717, 1961; Ref.21 Xbid, 13, 43, 1962) are extended to the case whdre the angle between the dipole moments of noreculos in the 8ropnd and excited states is not equal to zero or lc3O*. The f0 r4ulas for the dina;e moments and the latter angle are then used to-.4ompute numerical-Values for these quantities and to analyse the-!structure of ninbodorivatives of phthalantade (3,6-diamino- phthalamide, 3,6-tatratietliyldiatniiiophtlialartide, 3,6-diaccrtylamino- phtiialan,lde, 3-dimethylamino-6-amitioplithalaatide, 3-aminophthalamide, 3-acetylantinophthalamide, 3-m 0thylaminophthalamide, 3-dimethyl- alnilnl thalamide, 4-aminoplithalamide). Comparison of the Card 22  Universal intermolecular'... S/051/62/013/002/001/014 E032/E514 experimental results obtnined.by the method t;uggested in Rof.2 with theoretical calculations showed that the spectroscopic study of intermolecular interactions in solutions is a very sonsilivo quantitative inethod which can be used to determine the nckt'.re of those interactions and to obtain vuluable infornntion on che electric and geometric, properties and the structure uf*..7.r-w molecules in the ground and excited states. The present and pr,%r.;--is re5ults obtained b.%~, the author are said to constitute convizi,-Lzig evidence that intardolecular interactions of the universal type are of great, and in many cases prodontinant, importance in the description of the effect of the solvent on the spectra. There are 3 figures and 4 tables. SUBMITTM MmY 30, 1961- Card 2/2  S/04e/62/026/010/003/013 BIOI/BI86 AUTHORt TITLEs Effect of solvents on the intensity and position of bands in electron spectra of mdlecules PERIODICALi Akademiya. nauk SSSR. Izvestiya. Seriya. fizicheskVa, v. 269 no. 10, 1962, 1237 - 1240 TEXTs Based an Western papers$ a short'survey is given of results from re- search on the effect of the medium on the spectrum. Reference is made to the author's papers (Izv. AN 353R, Ser. fiz. 22, 1387 0956)1 Optika i spektroakopiya, 7, 52 (1959)1 ibid. 10, 71't 6961)) wherein two types of this effect are distinguishedi specific interaction caused by formation of H bonds, complexest etoof and universal interaction caused by the 6ffect of the solvent as a dielectric medium. The linear dependence of %)max in tbo -fluoreacenoo opectrum of 4-amino-N-methyl pbthalimVd6 on 6 and n of the solvent is quoted as an example from the paper by B.-S, Neporent and the author (Optika I. spektrookopiyal So 777 (1960)). The effect which the re- Card V2 I  3/048/62/026/010/003/013 Effect of solvents ... BIOI/B186 fractive index of benzene an4 heptane exerts on tho,a"boorption spectrum of 3-dimethylamino-6-amino phthalimide dissolved therein, quoted from the author's dissertation (GOI,,L., 1959). There are 3 figures, The most-- important English-lan g~Le references aret N Bayliss, E. MoRa Chem., 58, 1002 (1958r, Y. 06shika, J. Phys, ;oo, Jaiant 9, 594;Iij9;4P)hIye N. Mataga, Y. Raitu, M. Koiitimiq Bull. Chem. Soo. Japanj 299 46 (1956)1 E. McRae, J. Phyd. Chem., 61, 562 (1957). Card 2/2  S/020/62/145/605/006/020 B104/B102 AUTHORS: Bakhahiyev, N. G.t Girint 0. P., and Libovt V. S. TITLE; Relations between observed and true absorption spectra in a condensed medium PERIODICAL: Akademiya nauk SSSR. Dokladyt v. 145, no- 5, 1962t 1025-1027 TEXT: -Inventigation of the relation between the molecular absorption coefficient E(V) of a substance (or the coefficient K(u) in Bouguerle law) and the Einstein absorption coefficient B(u) leads to ') I a (V) C B (V _ 8 (v) n(v) c Ec,, (v)M hV E74;-(v) where n(v) is the refraction coefficient of the medium, E~p the mean macro- scopic field of the lightwaves in the dielectriog Eq~ the effective micro- field of the lightwaves, j(V) an arbitrary function. From this equation it was concluded that the spectral courne of the experimentally determined quantity E(v) of a condensed medium does not agree-with the true spectral Card 1/2  -a/020/62/145/005/006/020 Relations between observed and... 11104/11102 characteristics of B(V).of the absorbing center. Hence to determine the true spectrum of B(V) of the aboorbinp particles in vurious media the experimentally determined spectra need correction taking account of the effective internal field. It is sho"n that the observed and the true absorption spectra of particles in a condensed system do no~ agree as regards position, Intensity, or shape. PRESENTED: April 3, 1962, by A. N. Terenin, Academician SUBMITTED: March 27, 1962 Card 2/2  S/051/63/014/004/005/026 E039/E420 AUT11011s: Ilaklishiyev, N.G., Girin, O.P., Libov, V.S. TITLEi The relation between the observed avid true absorption spectra of molecules in a solid medium. 1. Univerani influence of the effective (internal) field PERIODICAL: Optika i spoktras)(opiya, v.14, no.4, 1963, 476-483 TEXT: A more precise understanding of the dependence of the experimental values of absorption coofticient KOO on frequency V is of major importance in spectroscopy. The true absorption Apectrum of molecules follows the form calculated front the Einstein coefriciont of absorption W A, but whon the investigated mol-cculen are in a solid body the observed spectrunn K(V) avid true spectrum W,)) can differ in positJon, intensity and shape of bonds. This difference line negligible dependencc on the universal effect which is connected with the change in intensity of the light. waves acting on the molecules in a (4olectric (the effective or internal field) and dotermines the form of the frequency dependence. A simple theory is constructed which accomplishes the transition from experimental to true spectra by the calculation of o co-riplex tensor parameter of the effective field, which completely determine& Card 1/2  S/051/63/014/004/005/026 The relation between ... C039/8420 the value and spectral path of the correction. The theory is based on the relation between quantum and classical parameters characterized by absorption on the one hand and experimental values on the other. This enables the relation between values of K(\)) anti B(,)) to be determined for the case of anisotropically --polarixed unolecules and f6r--isotropically absorbing media (liquid. solutions, amorphous solids). A now and more accurate oxprossion is obtained for determining the integral of the intensity of absorption bands from experimental data. SUBMITTED: August 20, 1962 Card 2/2  L 11162~kl MP(J)/W (I )IFW(p )/BTkq --A ACCESS10N KH: AF3002782 S/0051/63/014/006/0745/0750 0 AUTHOR: BakhWjj=j, N, Gk; GArkj_2. P.; Libov. V* S. TITIZ: Relation between the observed and true absorptionspeetra of molecules in a condensed mediums 3. Taking into account the influence of the effective (internal) field according to the Lorentz and Onsager-Doettcher models. SOURCE: Optika i spektrookopiya, v. 14, no@. 6v 1963, 745-750 TOPIC TAGS: molecular absorption# true spectra# Onsager-Boetteher model, Lorentz model ABSTRACT: Ths.present work is conoerned with the problem of determining the rela- tion between the observed and true absorption spectra of molecules in a condensed medlux in the framework of the Lorents and Onsager-Boettcher models for the mnle- cule plus medium (solvent) system),, In earlier papers (Optika i spektro., 14, 28, 1963 and Doklady AN SSSRk 14% 102!;,, 1962) the authors derived a general equation for the true absorption spectrum in terns of the observed spectrum, the correction for the universal influence of the effective (internal) field, the components of the tensor of the effectiv* field lArameter, and the direction cosines of the dipole moment of the transitions In the present paperp specific but generally applicable calculations are perfonied for the case of isotropically polarizing Card 1/2 ..............  L 12162-63 ACCESSION NR: AP3002782 absorbing-moleculoso-It is shown that.-dopending on the-properties o -fthe w 1s- cule and modium, there may ocaur different phenomena which W distort the' tylue spectrum: shift the bands and alter their intensity and shapeo Tho specific case of the absorption in the region of the f1mdamental frequency of a hypothetical liquid molecule is examined and the 4ffe!:t of corrections of the efftotive field according to the Lorentz-and Oneager-BoeLtcher thecries is shown. It is pridicted that appreciable changes may be expepted in the electronic spectra of strongly absorbing oubstances, such as,41es.1121t is pointed out that failure to alloit for the distorting offsets of various faetoi-a may lead to serious errors in int,erprot- ing experimental spectra. The authors plan to discuss the properties of same t Orig. art. has: 26 particular substances and systems in fuure contributions. formulas and 2 figures A&IJOCIATIM None SUBHr= 20AU662 DATS ACQDt 15Jul63 ENCL: 00 SUB CODEt 00 NO REF SOVI 005 OTHER: OW; Card 2/2  L 10161:L3. WW/W ACMION IM: _030603-13 V)/0040/63/02T/005/0623/1)16 -'% -I ,171T AIMM PI!Eskiwa I. V.; B*h~Myeyp: 11. 0. _j TMX: Qwmtltative Investightion of Vie tememture dependence of the absorption and fluoresew.,ce spe*tM of qavlex 'molecules (Report; xievew!_ CoOerence on Luminescence held In Xinalt 10-15 Sept, 19621 SOURM: Izvestlya AN SSSR, - Serlys, fixicheakayup -r* 2T noo 5s i963 -62T 1523 TOPIC TAGS: aboorptIon-of molecuUsp. fluorescence of molecules., aminophthallaidesp nolecular Interacti(kh ABSTRkCT*.----IA-*n earlier- paW-we of-tlie-euthorllp -B&khshIy)ev._N._G.__(Opt.' -717#- i96i)-prqpsed a siqile-but general-theory describing Use- Influence on the electronic spectra of wlecules In liquid two-componerit solutions of - universal Intermlecular :~&teractlonz of- the orientation, - WIuctiort,, dispersion and dMuixiic types.- - The key equation chars terizes the f~*queww - shift in going from vapor to solution :*a a function of the dielectric constant., 1ndex of refraction wA other parawters of the emitting and solvent noleculeso - Card 1/2 ---------- -* ------ ---------------- -------- -------------------  L ioift-63 ACCESSION NH: AP3000313 The present work Is devoted to appliention of the Bakhahlyev theory to interpretation of experimental results as regax-da tenperature dependent frequency shifts. jetve=gated compounds were 4-amino, 3-amino amd 3 r 3,6-aminophtalimide_01 in be=ene, etkW1 acetate and isoanV1 alchol. .0 f The absorption and f orescence spectra were recorded at tenperatures from 20 to 250-35VC on a modified SF-4 spectrophotometer (absorption) and a photoelectrIc spectrometer* The axperimental data are presented in the form of curves and tables, While a detailed d1scussion of the e.Verimental results will be published elsewhere., It In pointed out that In the case caf mDno- and dimlne pk,,UalWde derivatives the effect of temperature an the absorption and fluorescence spectra is quantitatively predicted by the Bakhohlyev theory., which indicates that univermd intermolecular intwactions play a decisive role in the tenperature behavior of the spectm of the investigated cocpounds, in solutions, Orig, art, W: 3 eqmUous 2 fiWes and 2 tables. ASSOCIATION: none SUBLITM. 00 DATE ACQ: 12JUD63 ENCL: 00 SM ~~ E NR MW SOV: 017 arm: 006 Cord  11 9~52_63 nM(l )A-W.(v)1H1)_S--AFM-1A`D1&5D- 3-1JP(G) ACCWSION NR: AP3WO580 S/0051/63/014/OC,5/0634/0638 AMHOR: DakhshiYeY,_N,_,_G,i QIrIng o-, P.; Libov, V. S, 7- TITLE: Relation between the observed and trre abaorPtion spectra of molec-jles-~\ in the conden&ed state. 2. Method of determining the correction for the universal influence of the effective (internal) field SaME: Optika I spektroskopiya, v. 14, no- 5, 1963, 634-638 TOPIU TAGS: absorption spectra,, Internal fields ABSTRACT: In earlier cont--ibutions by the authors (Doklady AN SWR, 145, 1025, 1962; Opt. I spektr., 14, 25, 1963) it was pointed out that the true absorption spectrum of molecules is the freTtiency variation of the Einstein absorption coefficient B, and then when the molecule is in a condensed state the observed spectrum, characterized by the usual coefficient K, differs from the true spectrum,. Accordingly in the presmmt paper-there am diaveloped methods for determining the nz&iitude and frequency dependence of the conxction to that observed spectrum due to the unIversal influence of the effective (internal) field of the molecule, It is demonstrated that the requisite relationships Cord 1/2  L 9852-63 ACCE=ON NR; AP3wV%O 0 betvenn the optical charwteristics of an isotropic absorbing madium and the microscopic characteristics of the absorbing molecule (the polarizability and effective field tensore) can be found in several ways, two of vhich are considered in some det&il. The first Is base-4 on use of the general expression for polari7ation of art absorbing dielectric; thn second consists in seeking the relation bet-ween the quantum Ywchanical and classical quantities characterizing pressions for the absorptive capacity of the wlecule in a condensed medium, Ex determWna the effective field and otber parwwters of molecules in different media from- experimental data-are-adduced. orig. art. has: 23 equativas. ASSWIATION: none SUNUMD: 2OAug62 DATE ACQ.- 12Jun63 ENCL: 00 SUB COM PH Na JMF SDV: 005 OTHO 002 Card 2/2 .............. ................. ............... ....  8/053/65/079/002/002/004 B102/Bi86 AUTHORSs Oirint 0,, Po I and Bakhqhiy*i,--N. 0.' TITLEt Tht effect of the solvent on the position and intensity of the bands In infrared moleoule spq9tra PERIODICkLi Uspekhi fizioh*skikh naukp ve 79, no. 2. 19650 2~5. 262 TEM The present artiolo CivIso an Inoomplete-roview of the litsp~ture Of recent years and a critical diequesion of 'the most important, papers. dealing with the dolvent,offecte,on the IR band spootrao' Spooial Otton- tion is paid to possibilities of generalisation and to the theoretical difficulties that arias in a proper desori'Ption'of the interaotion* There are 14 figures, 2 tables$ and 125 references.* dard i/i  1, 12814-63 :Imp( )/EMCj/'ECL(r_~/8DS F~ P RY,/WW 63 AP3002214 N1-N)/150/006/L02%/1259 AM"HOR: Bakhohl'yev. X. G.; Girin, 0. P4.; Lib,-.r. V. S. 6bd eel Tn= ---- Aplarelat and true- Omorption- opectra -of-Uquid MC!~- 4-JA-the 740-810 cm- range SOME- All SSSR. Doklad3r*, v. 150, no. 6, 1963,, 1P56-1259 TO)'XC TAGS-. absorption spectra, CHC13, CC14, abcorption coefficient MIMLACV: The authors presented in a previous paper (DAN, A51 1962, 1025 thl? relrttionohip between the observed nolecular absorption coefficients and '.he trie (Einstein I a) toeff icients Vnich are detervirtnedd by the internal -properti es- of the molecule. The corre-eAl.ot factor is given by the changes of the ele0jric-,. .-field of -the liE;ht wave caused by the medimn. In t1he present, work this correction in urma Tor_dbt-&[hM- the rmd evzorptlon c-0effitient"f-t-h-a opectrtm which correspond3 to the fundenental vibration of C-01. The abcorntion SPectm-1 01 MICI anl CC14 In both the liquid and gaseous state were experimentalIN' tained and torrected accor&ing to the mentioned foi=ulas. *Card 1/2  L 128j41-0 AMSSION NR: Ar3OOnl9 The obsen-ed and the corrected spectra absorption coefficients exe given i:l two figu.res. The regults confirm the conclusions of the quoted paper that ti-c observed absorption spectra differ greatly from the true ones. This report van presented by Academician A. V. Terenin, 18 Jan 63. Orig. art. has-, 3 formulas,-'- 2 figure, ASSOCUTTOR: none SMH=ED: o4jan6v, r.ATE ACq- 24,TV163 r' NGL: 00 SUB CODE: M, EL NO RE? SOV- 002 om-R: oO4 Cotd 2/p-  BAKHS11EVJI N.G. - Now apnotrosoopic method for studying the anisotropy of electron transitions in polar molecules. Dokl, AN SS9R 152 no.32577-580 S 163, (MIRA 16t12) 1. Prodstavleno akademikom A.N.Toreninym.  LIBOV)4V*Sq;-PAKHSHIYEVO N.G. Quantitative study of the absorption and dispersion of CHI"? and OC14 in the region of strong infrared absorption bands.OP . i spektr. 16 no.2o223-227 F 164. (MIRA 17W  BAKHSHIYEV, N.G.; NEFORENT, B.S. Further on universal and specific interactions "universal" solvent scales (in connection with V.P.Kolobkov's article). Opt. i spektr. 16 164. in solutions and V.V.Zelinakii and no.2051-359 F (MIRA 17W 9,  M. KI;S!IIyi-;V, 14.G. Universal molecular interacti~r,.,,, tu-.cir e0i,'oc,~ ~jri !Ir! 110aition of electron spectra of mclocul,:,-, in two-,~,.mq on-znt. soluztlorij. I~art 7. Opt. i spektr. 10 no.5:8,'I-!i3l~ :,Y 1,01:9)  1.11.10vt V.6.; 11 ~ i, ii -'~j 111 ~j . (, . ; ( j ' ; ~' T ,' , ~, . 1'. Folation between the obaeri~-(' tirici tr-,if,- opectra In a condonsed medJim. )'!~-.t 14. OpL. I spchtr. 16 rio.0:1016-10.>3 Jo IN,. (MjrtA 17S9)  Wr L 1-157 EN, I lip(c) FAcd-wkl AR6031872 SOURCE CODE: UR/0058/66/000/006/DO92/DO92 AUTHOR.; Allipeavich. I, BakhshjXjX,- 1j, -.G. ; Korovina. V. M. TITLE: Optical constants of diluted solutions of complex molecules SOURCE: Ref. zh. Fizika, Abe. 6D752 REF SOURCE: Sb. optich. tooled. molekulyarn. dvizheniya t mezhmolekulyarn. vzaimodeystv. v. zhidkostyakh i rastvorakh. Tashkent, Nauka, 1965, 187-205 TOPIC TAGS: optic constant, complex molecule, absorption line ABSTRACT: The differences of refraction indices of a solution W and solvent in a field of ^-s 600-200 m," have been measured for diluted solutions of n- nitrosodim ethy) aniline in Ccl 4 4), rhodamine in water 41), crystal violet in water (111), and malachite green in water (IV). The values of [(n-n)max-(n--fi)min x 105 are: 1-3. 8, 11-5. 9, 111-7. 7, and IV-4. 7. The calculations by equations of the Davidov theory,'is in good agreement with the experiment. Experimental and i calculated absorption lines and dispersion curves of solutions are presented. E. Broun. [Translation of abstract] SUB COM 20/ card 1/1  L 148374A HWT(1) UP(c) AT -ACC 'NR: AP50,25298 SOURCE 0DDg3__'_ UR10631/65/019/004/0535/0143-- AUTHORx DA shijay. 1. 0. ORGt None TITLE: Universal intermolecular interactions and their influence on the position Of electron spectra *I molecules in two-component solutions. Part 9t Anisotropy of redistribution of electron density in polar organic molecules- during optical excitation ILI% 414N 75- SOURCZ: Qptika I spektroakopiya, v. 19, fio. 4, 1965, 333-543 TOPIC TAGSI molecular Interaction, dipole moment, electron spectrum, electron. density, phthatimide. malaimi4a, molecular spectrim ABSTRACT: On the basis of experimental data obtained earlier, the magnitude and absolute orientation of vector AAt (which is equal to the vector difference A40 - N89, 140 being the dipole moment of the molecule in the excited state and A 8 being the dipole moment In the ground state) were determined relative to the skeleton of the molecule for a group of phthalimide derivativet. Vector A4 characterizes the arzisotropy of redistiribution of the electron density during an optical transition, and provides an indirect indication of the direction in which -Card-1/2 _-UNt-539.1.196.3  L 14637-66 ACC NR: AP5025298 the electron cloud of the molecule is shifted during the excitation process. The data obtained on the electronic structure and spectroscopic properties of phthsli- aide and maleimide derivatives are in accord with many earlier investigations of compounds of this class, performd by.other authors. It in concluded that spectroscopic method* based on a quantitative stu,ly of'tbe effect of Intramolecu- lar interactions on molecular spectra provide valuable information on the proptr- ties of excited states of molecules and their electronic configuration, and also on the nature of the corresponding energy transitions. Author to grateful to Yi Z. Ch. Grabovskiz for a discussion of sore probleas dealt with in the article and for useful comments. Orig. art. has: 6 figures, 4 tables, and 4 formula*. SUB ODDEt 20 SUSH DAM Muhi4 -ORIG REFt 013 Card 21  L 36431-66 -PW(WWTW/WT* :W-(c) Ap6oi542o SOURCS CODNI UR/0031/66/020/003/0783/070 AUTHORS BakhahkTvj N. 0.1 Piterskayap I* Ve OROS TITM Universal intermolIg nterAstions nd their effect on the position of :lectron spectra iff mmolecules n-1wo-'oomponent solutionse Part 121 Dependonce of ab- orption and fluorescence spectra ofjkthalimIdIlderivatives on tenerature sad the state of aggregation of the solvent (+20 to -1960Q - SOURCES 'Optika i spektroskoplyaq Y. 209 no. 5t 19"t 783-?92 TOPIC TAGS1 absorption spectrum, fluorescence spectrums, electron spectrump molecular interaction ABSTRACT: Using the concept of the important part played by universal molecular in- teractions In the phenomenon of spectral shifts in solutions for my relative values of T; (time of orientational relaxation of the molecules of the medium) and T# (time spent by the molecule studied in the el*otronio state)p the authors InvestigaW the absorption and fluorescence spectra of a series of organic molecules in solutions between +20 and -1966C. This temperature range was chosen because any relative valuel Of 1r; and rf (from 'r,'. 4C ?,-0 to t" >> 10 ) can be obtained in its The oompounds studied (4-aminot 3-aminot 3-mnomethylanino-9 3-aoetylaminov 3.6-diaminot 396-t*tra- methy1dikmino-9 and 3~6-diaootylaminophthalimide) had oontimous fluorescence and ab- UDCt  1 3&31-66 ACC NR% AP6015420 0 sorption spectra,, and the solvents used were isobutylq butyl and propyl, Alcoholp and glycerin. The results show that the important role of universal intermolecular inter- actions in the temperature shifts of electron spectra of molecules in solvents in con- firmed In the low-temperaturs r&M as well. It is concluded that the theory (N, 0, Bikkhahiyevo Opt. i spektr.t 169 821t 1964) permits a satisfactory description of the influena6 of temperature and state of aggregation on the position of electron spectra of molecules in a temperature range reaching 430-3WOC. Origs arts has$ 3 figurest 3 tables# and 2 formulass ,.20/ SUB CODRI ON SMM DMI 0214b65/ WM RVa 034/ OM MWI 007 Card 2/2  ACC - NRs 06018439 SOURCE CODE: UR/0051/66/020/006/0976/0981 AUTHOR-. Bakhahivev, N. G. ORG: none TITLE: Multiple intermolecui~ar interactions and their effect on the electron spectra position of molecules in binary solutions. X111. The physicochemical properties of some molecular complexes SOURCE. Optika. i spektroskopiya, v, 20, no. 6, 1966, 976-981 TOPIC TAGSt intermolecular complex, electron donor, excited state, electron spectrum ABSTRACT% A spectroscopic method of determining some electrical and geometrical cha- racteristics and physicochemical parameters of molecules is analyzed. The method is based on a quantitative investigation of the effect of intermolecular interactions on their electrW$Rectra. The following two complexes were examined: a complex of 1-~ -ethyl-4-carbomethoxypyridine with iodine (ComrwlexAl), and a complex of hexamethyl- benzene with tatrachlorophthalic anhydride (CompleA II). Ccmplex I was investigated with a number of solvents of different chemical composition. It appears that its low intensity broad band in extremely sensitive to intermolecular interactions, in the transition from a pyridine to an aqueous solution, it shifts into a short wave range by more than 10,000 cm 1. An evaluation of the dipole moment revealed that in the UDCt 539.196.3  L 01341.11-67 _X_ - - - CC N ka AROiMg formation of Complex 1, a complete electron transfer from the aromatic molecule to io- dine takes place; this transfer is followed by a transformation of the interacting particles into an ion pair. Complex II is of the w-donor-acceptor type, formed by in- teraction of i-electron clouds of molecules. After experimentation with 9 different solvental previously reached conclusions as to the electron structure of Complex II in both principal and excited states were confirmed. The spectrosc? ,pic method can be successfully used for the detemination of a number of microscopic characteristics of molecular complexes. Orig. art. hast 4 figures, 2 tables, 3 fomulaa. SUB CODE:07,20/ SUBM DATE: 02Feb65/ ORIG REF: 010/ OTH REF: 004 2/2  EFENDIYEV, F. A.,, prof.; ABDULIAMp M. M.; BAKIISHIYEVA, Ye. B. (deceaBed] Qangee in blood coagulation factors and fibrinolytic activity in leucoBes. Probl. gemat. i perel. krovi no.10:19-28 161. (MIRA 14112) 1. Is Azerbayfthanskogo nauchno-iseledovatellskogo instituta gematologii i perelivaniya krovi (dir. - dotsent G. A. GuBeynov) I fakulltetakoy khrurgicheekoy kliniki (dirs - prof* Fs As Efendiyev) Aserbaydabanskogo gosudaretvennogo raeditsinBkogo instituta. (USUCOSIS) (BLOOD-COAGUIATION) (FIBRINOLYSIS)  , L 4, 1 ~ - f 7-rp 1 1 1-/I T -J~ 1 -(C , J D/ j G. L ACC NR, AJ~015441 SaJRCE CODES UR/0031/66/020/005/0918/0920 AUTHORS B&khshU3%A&j0,&,?.; Karapetyang V, 19,; Morozovp A. M. two- Offit none 4_.characteristice of lsnthgn~ sodium molybdate single crystals TITM Opt~o 17 1 SOURCES Optika i Mmktroskoptyaq v* 20, no. 5v 19661 918-920 TOPIC TAWS molybdatep lanthanum corpoundt sodium compoundp refractive indexo optic property ABSTRACTS IALrge single crystals of I&N&(MoC4)2 whose C axis was parallel to the axis of growth wore grown on a seed by pulling from the melt# and their absorption Spectra &M refractive indices were measured. Tho absorption spectrum of an L&N&(MoC4)2 cry- stal taken with SF-4 and IKS-14 spectrophotometera is shown in the figure. It is no- ted that the absorption spectra are typical of all crystals having a scheelite Btruo- ture. Refractive Index measurements showed that the light ray is "fractionated" on passing through an Wa(MD002 prismp apparently because the lattice of this binarY molybdate is highly disordered ~+ This factor is also thought to cause the relatively broad luminesoence lines of Nd in I&Na(MoO#)2 and the broad ESR lines of this com- pound reported by other authors* Authors express their deep appreciation to A, I. Stozharov and P. P. Foofilov for their steady interest and helpful. disoussioii~-siq AM UDC1 535-321 + 535-34115W.0  -L 3441&~~6---- ,;~_CC__,NR_, AP6015441 te Yo. M. Sychey and I. A* Shubs for assistanoe in the work. Orig. art. has$ I fig- urs and I tables I a 3UB CODSI 201 SUBK DATZI 160st65/ ORM FdWI 003/ OTH R371 006  j n A, --I- -.-   - (16 riL X )) ;g- ) 1 1 7 'J'_ I e / - ~4' d- - USSR/Organia Chemistry. Synthetic Organic Chemistry. E-2 Abs Jour iR*f Zhur - Khimiya, No. 8, 19570 26681. Author :. AbdulAyev, G,K,; Bakhshizado, A.A. Inst if Az orb& Title iAnalysis,of Booondary Products of Direct Hydration of Ethylene, Orig Pub tElmi eserler, Azerb. univ. Uch. zap. Azorb. un-tail 1956, No. 10, 25 - i0. Abstract aIt was established that the secondary pro- ducts of the direct hydration of CH2=CH2 in presence of phosphate catalysts contained 46,~% of olefins, of wMah there was 7'3% of dione hydrocarbons, 27-13% of paraflins, J% of which having been allfatic alcohols the fraction 2,2-dimsth~lbutanol was 3epara- te1d), 19.9% of naphthenes and 6.77% of aro- matics. The fractions 2-mothyl-pentans, Card 1/2   BAXHSHI,ZAIM, A,A.; SMIDOV, R.I. Liquid-phase oxidation of wi-xylene and p-xylene. Uch, sap. AGU ho.1:61-64 156. (XITd 12: 1) (41ens)  SAIDOV. N.M.; BAK HI-ZAA, A.A.; MCMUNIT. S.D. Liquid phase oxidation of xylaue isomers bjr atmapheric oxygen@ Aserbekhim.shuro no.lt23;2 159. (MM 13:6) (kiene) (Oxidatl n~  MKHTIUVp S.D. j BAYJiOHI-ZADR, A#A.; Si;IWV,, N.14. Photochemical oxidation of xylene isomers [in Azerbaijani with OVM=Y in Russian). Azerb. khIM.Shur. no,419-14 159. (KM 14%9) (lylerle) (Ultraviolet rays)  3/o81/61/000/002/023/023 AOO5/A1Ol Translation from: Referativnyy zhurnal, Khimiya, 1961, No. 2, p. 608, # 2RI09 AVMORS i Bunlyat-zad*, A. A., Pialman, 1. 1., Brikffishi-zade, A. A. TITLE: The Copolymerization of Olefines. Report I. The Copolymerization of Ethylene With Propylene PERIODICAL: Uch. zap. Azerb. un-t. Fiz.-matem. i khim. ser., 1959, No. 4, pp. 77-80 (Azerb. summary) TEXT: The authors studied the polymerization of ethylene-propylene mix- tures containing 13-15% by volume of propylene, on a chromic catalyst in the presence of a solvent (benzing "galosha"). The optimum temperature for the studied conditions is 100-110 C, the optimum pressure lies within the range of 30-35 atm. The data in literature are corroborated: the molecular weight of the polymer decreases with increasing temperature and increases with increasing pressure. Author's summary Translatorts note: This is the full translation of the original Russian abstract. Card 1/1  BAIHSHI-ZADX, A.A.; SJUDOT, N.M.; SMIIUIOVA, N.A. Separation of x7lene Isomers by the alkylation method. Aserb. neft. khos. 38 no, :37-38 S 159. (MIRA 13:2) 7xylsue) (Alkylation)  MKHTIYEV-,- S-.D.-,-I- BA)KaFiSH------7-A-Dg-- - , A.A.j MKHTIYEV, S.I. Synthesis of glycerol by the direct hydroxylation of allyl, alcohol by hydrogen peroxide. Aserb.khim.shur, no,5147-58 161, (KM 1515) (Glycerol) (Allyl alcohol) (Wrogen pamcide)  833,33 S/02 60/133/005/010/019 Y B016 B060 AUTHORS: Dalin. M. A., Academician AS AzerbSSR, Pialman, 1. 1., RA"M-7nde -A. A.. Buniyat -Zade, A. A. l l J TITLE: -GoDo1-ymerization of ELhZlene and With Propyle a- utylenelon Chromium Oxide Catalyst PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol. 133, No- 5, pp. 1084-1085 TEXT: The authors wanted to carry out the synthesis uentioned in the title and to study more thoroughly the properties of the substances mentioned. The first results of their investigations are supplied in the precent paper. For their experiments the authors made use of Vishnevskiy's mixer (Ref. 3). The solvent used was extraction benzine purified by activated chromium catalyst. The catalyst was prepared by the well-known method of Ref- 4. The ethylene- and propylene fractions of pyrogas were used as monomers. The butylenee were produced by dehydration of n-butyl alcohol upon aluminum oxide of the type A-1 (A-1) at 3600C. The mixture Card 1/3  83133 Copolymerization of Ethylene With S/020/60/i53/005/010/019 Propylene and a-Butylene on Chromium B016/B06O Oxide Catalyst contained 2 - 3% of isobutylene and 97 - 98% of normal butylenes. The butylene fraction was dehydrated on fine-porouB silica gel and calcium hydride during production. The gan mixtures wore prepared in carefully dried metal balloons. After the pressure drop had stopped the autoclave was allowed to cool and pressure was reduced. The copolymer taken from the autoclave was heated together with the catalyst in a vessel with ligroin, and was subsequently filtered off the catalyst on a paper filter. The polymer was then washed with ethanol, dried, and analyzed. Table 1 shows the properties of polyethylene, which constitutes a copolymer of ethylene with propylene. It contains (in by weight): propylene 12.6. ethylene 67.4, and ethylene-a-butylene copolymer (7~v' of butylene and 93A of ethylene). As can be seen from Table 1. the copolymers of ethylene with propylene and with a-butylene differ from polyethylene with respect to melting temperaturue, solubility in n-heptane, and specific elongation In cold drawing. The greater flexibility is striking but so is also a lesser strength of the ethylene-propylene copolymer an compared with polyethylene. The ethylene-a-butylene copolymer comes near Card 2/3  83133 Copolymerization of Ethylene With S/020/60/133/005/010/019 Propylene and a-Butylene on Chromium Bo16/Bo6o Oxide Catalyst polyethylene as to strength but surpasses it as to elasticity. There are 1 table and 5 references: 2 Soviet, I US, I Belgian, and I Italian. SUBMITTED: February 5, 1960 IV Card 3/3  HMTIYEV,, SGD.j BAKHSHI-ZADEj A,A.; WMTIYEV, Me 0--- Synthesis of diatomic alcohole by the hydrOX71&tiOn Of Olefim with hydrogen peroxide* Amb.khim.shur. no*603-38 160, (KCRA 108) (Alcohols) (Olefins) (Hydrogen peroxides  IL wu -n-(.  S/081,/62/000/004/006/087 B102/B101 LUMORS i Dalin# M. A., Shenderoval H. I., Pialman, I. I., Bakhahi- jq,~~ Vedeneyeva, L. Ya., Buniyat-zade, TITLEt Synthesis of polyethylene and of copolymers of ethylene with propylene and.a-butylene on an chromium~o 'xide catalyst n'y,y* zh~rnal 4 PERIODICIL& Referativ ^L 1~ Khimiya, "%: 1 1962, 66~g.abstrAqt_v-, 0126 (Azerb. khim. zh.j no. 1, iq6i, 17 - 22) TLXTi Purification of dhylene (1) was carried out on a pilot-plant scale allowing for an increase in efficiency of the oxide-chromium oxide catalyst (COC) up to 176 - 250 9/9 when I is polymerized in extraction benzine purified with sulfuric-acid, or in oyclohoxano (120 - 1~011cj 3 - 5 hrop 45 at, COC oonoentration (1.13 - 0.25~;)- When ethylene is co- polymerized with propylene (11) (6-7 - I5A by volume) (110 - 1200C, 40 at) in benzine in the presence of an CaG2 activator (M~ of the catalyst's weight), the offioiency of the COC is reduced to 68 - 135 g/g owing to the lower reactiyity of Il and to its incomplete purification. The copolymer ..Card 1/2  S/08 62/000/004/086/087 Synthesis of polyethylene and... B102YZ101 (CP) differs from the polymer of I by its lofti'#crystallinity. The con- tent of crystal lljnq*,~pae dyoreases with :Lricreasing polymerization temperature and incr4a'see h '`p'KV a uve 01OPS melPt. -point in OC, npture atrelig 1~ n, kg/cm an, . volubility in relative elongation in,~ t 2 n-hoptane are enume~:Ueal I it)s ;6. 130 IM o~','V 6oo j z6o~ + 3ao 10 - 15; CP of I with 11, 122 - 126 726 10~0, 17b ~20, 6Q -'70;'CP of I with a-butylene (2-5 - 4.5 vol%i, 125 127, 500 600o 250 - 3001 30 - 40- [A.betracteris notet. Complete tianslat ionj., Card 2/2  DALIN, M.A.; BaIISHI-ZADE, A.A.; PIL'MAN, I.I.; BUNIYAT-ZADE, A.A. Some propertie3 of the coplymer of ethylene v-ltb propylens, Azerb.khim.zhur. no.1:2,1-29 '(0. (MIRA 34:9) (Ethylene) (Propenp)  8/061/62/000/006/045/117 BiOl/BliO AUTHORSs Buniyat-zadej A. A., Belkinst A. U.9 Bakhah-i-sadej,Aa IA Petukhova, L. X. TITLEs Destructive alkylation of toluene by means of pentane PERIODICALt Referativnyy zhurnal. Khimiyat no. 6, 1962, 199, abstract 6Zh114 (Uch, zap. Azerb. un-t. Ser. fiz.-matem. i khim. n-, no. 1, 1960# 91 - 95) TEXTs Destructive alkylation of toluene by means of n-pentane over a synthetic aluminosilioate catalyst was studied. The effect of.temperatae, pressuro, and the volume rate on the reaction was investigated. The experiments were made by a method described earlier (RZhKhim, 1957, no- iN 45505)- It has been found that the main products of the reaction are aromatic compounds and a fraction boiling out at 125 - 450C, n20 1-4970, d 20 0.8650. Raman scattering showed that this fraction con- D, 4 siste of 27 % n-, 47 % m-, 12 % o-xylene, and 14 % ethyl benzene. Oxida-' tion of this'fraotion by means of MO 4 in alkaline medium yields 87-7 % Card 1/2  3/081162/ooe/006/045/ii7 Destructive alkylation of ... B101/B110 0 20 20 phthalio aoide. The fractions with b. 145 - 200 C, n 1-5010, d 0-8704o' 20 20 D 4 and with b.> 2000C, n 1-5390, d 0.899, consist of methyl ethyl-l D 4 methyl isopropyl-, methyl isobutyl benzene, and other aromatic compounds. It has been found that at 350 - 4500C the components of the reaction 0 remain practically unchanged. At 450, 475t and 500 C, the total yield in' catalyzate with b.> 1250C suddenly increases reaching 11-5v 12, and 17-41k, respectively. A temperature increase up to 5200C has no noticeable effect on the course of reaction. If the volume rate is reduced from 0.5 to 013 and 0.1 volumes of raw material per unit volume of the catalyst and per ho.ur, the yield in produotsboiling out above 12500 increases to 21.6 and 27.6 ~, respectively. If pressure is reduced from 40 to 20 atm the yield decreases by more than 2/3, and an increase in pressure up to 60 ats affects the reaction course only slightly. The gases ariging in the course of the reaction consist mainly of saturated hydrocarbons and hydrogen. (Abstracter's notes Complete tr&nslat ion.3 Card 2/2  DALINO M.A.; SHENDEROVA7 R.I.; PISIMAN, I.I.; BAKHSHI-ME, A.A.1 VEDENEYEVA, LIY&.'; BUNITAT-ZADE.. A&A. Synthesis of polyethylene and ethylene copolymers with propylene and oL-butyleae on a chromium oxide catalyst, Azerb.khiz.zhur. no.ltll-22 161, (Kim 14 2 8) (Polyethylene) (Ethylene)  MEKHTIYb'V, S.D.; BAKHSHI-ZADE, A.A.1 SEIDOVO N.M.; KAMUROV, YuG* Separation of m- and p-xylenee by selective alkylation followed by dealkylation. Neftekhimiis, 1 no-ls5W9 Ja-F 161.. (MIM 15 32) lo Institut neftekhimicheskikh protaessov AN AzSSR. I (1yiene) (Alkylatign)  DALIN, M.A.; PISIMAN,, I.I.; BAKWHI-ZkDE A.A.-- BUNIUT-ZkDE, A.A.; POKOTILOVA, S.D. Copolperisation of ethylene with At-olefino on a chromium oxide catalyst. Azarb.khim.shur. no.20-16 161. (wk 14:8) (Ethylene) (Clefins) (Pblymerization)  SEIDOVp N.M.; BAKHSHI-ZkDES A.~.; CHERNIKOVA, I.M.1 MELIKOVA, Z.M. -Transformations Oro( -methyletyrene on aluminosilicates. Aserb.- -tWdvUtur. no.5sk7-62 '62. (KMA 16: 5) (Styrene) (Aluminosilicatea) i! Oll  ~ r, .1 -, . , I A '-iAWV, G. I . *":).. I ~ (! 4`1 .6. , bli.,. " Y, . ~!., A -'. . . ~ ~ KY--, I I I ,,, A IN,-, $ P . A . , A '- I IOA F ;, rf- EII,4.(,Alc catnly3ti n the rv-i~!t'on of -,,,pnlyxurlzatlcn of ethylene .i!tti 6(-olefins. Azorb. khin. zhur. no.lillW125 104, KRA 17s5)  L ~ - 1 , ~': A -RY rTR/03j(,/64 /Wo/oC*A~041/0045 A t A P"Z) '10" A q V~m beq rv0 N. IMnkhti-rev. R%k-hahiml~ A. A. I FL&MbIL~, Tu. a. -'q - Is WUWY! AL-"rtkny4xh^nakiy kh1jmJc!Nv"iY Zhurnal, no. 4, 1964, 41-45 !Topic TAGS: Stvine prv"Jene, catalysim kbstroct? This article presents the "jolts of one of the stages in a detailed or itw dimer1ratt" -f alefina 1n an offort to reveal tf- r't a,..I 1'') stow 6.4ye No '