Hydrosilylation reactions in synthesis of surface chemical compounds

With the combined use of a catalytic hydrosilylation reaction and sol-gel formation, immobilization of a number of unsaturated organic compounds (quinine, quinidine, cinchonine, cinchonidine, alprenolol, N-allylrhodanine, and hemin) was carried out on a silica surface. The structure of the compounds...

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Дата:2001
Автори: Tertykh, V. A., Yanishpolskii, V. V., Bereza-Kindzerska, L. V., Pesek, J. J., Matyska, M. T.
Формат: Стаття
Мова:Англійська
Опубліковано: Chuiko Institute of Surface Chemistry National Academy of Sciences of Ukraine 2001
Онлайн доступ:https://surfacezbir.com.ua/index.php/surface/article/view/49
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Surface
_version_ 1869291134804557824
author Tertykh, V. A.
Yanishpolskii, V. V.
Bereza-Kindzerska, L. V.
Pesek, J. J.
Matyska, M. T.
author_facet Tertykh, V. A.
Yanishpolskii, V. V.
Bereza-Kindzerska, L. V.
Pesek, J. J.
Matyska, M. T.
author_institution_txt_mv [ { "author": "V. A. Tertykh", "institution": "Інститут хімії поверхні НАН України" }, { "author": "V. V. Yanishpolskii", "institution": "Інститут хімії поверхні НАН України" }, { "author": "L. V. Bereza-Kindzerska", "institution": "Інститут хімії поверхні НАН України" }, { "author": "J. J. Pesek", "institution": "San Jose State University" }, { "author": "M. T. Matyska", "institution": "San Jose State University" } ]
author_sort Tertykh, V. A.
baseUrl_str
collection OJS
datestamp_date 2018-11-27T09:42:39Z
description With the combined use of a catalytic hydrosilylation reaction and sol-gel formation, immobilization of a number of unsaturated organic compounds (quinine, quinidine, cinchonine, cinchonidine, alprenolol, N-allylrhodanine, and hemin) was carried out on a silica surface. The structure of the compounds formed and the nature of their bonding with the surface were studied by DRIFT and NMR. spectroscopy. The concentrations of the olefins anchored to the surface layer of the silica matrix were estimated by a UV-spectroscopy method. A spectrophotometric method for the determination of =SiH group concentrations in solutions and on surfaces was developed. The method is based on the reduction of ammonium molybdate by silicon hydride groups and measuring the specific absorption at λ=710 nm of the blue solution of silicomolybdenum heteropolycomplex formed. The method allows for the determination microgram quantities of =SiH groups with a reasonable accuracy. Kinetic peculiarities of the hydrosilylation reaction between cinchonine and triethoxysilane in the presence of Speier’s catalyst have been studied in toluene and isopropyl alcohol by use of a spectrophotometric method. It was shown that the hydrosilylation reaction of functional olefin is complicated by transformation of the catalytic system and secondary processes occurring in the solvent medium, in particular the hydrolysis of =SiH groups.
first_indexed 2025-09-24T17:44:38Z
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fulltext I : d iс са m. rca ,\l- l . - шd rnd for з o f HYDR0SILYLATION RЕACTIONS IN sYNTHЕsIs oF SURFAСE сHЕМIсAL сoMPoUNDs V.A. Tеrtykhl, v.v. Yanishpolskiil, L.v. Bеreza.Kindzеrskаl, J.J. PеsеЁ' and М.T. Мatyskа2 lInsiitutе of Suфсe Сhеmistrу, Nаtionаl Аcаdеmу of Sciencеs, Gen' Nаumov str, ]7' 03680 Kуiv-I64' UKRАINE; е-mаil: tеrtуkh@trlubliс.uа.nеt 2fun Josе Stаtе Ilnivеrsitу, Оnе Wаshington Squаre, Sаn Josе, CА 95lg2-a]01, (],S.А. With the сombined use of a сatalytiс hydrosilylation rеaсtion and sol-gel foгmhtion, ilization of a numbеr of unsatuгated organiс соmpounds (quinine, quinidine, сinсhoninе, idinе, alprenolol, N.allylгhodanine, and hemin) was carriеd out on a siliсa suгfaсе. Thе of thе сompounds formеd and the naturе of theiг bonding with thе suгfaсe wеге by DRIFT and NMR sprсtrosсopy. Thе сonоentrations of thе olеfins anсhoгed to thе laуеr of thс siliсa matrix wеге сstimated by a lJV.spесtrosсopy mеthod. iс mеthod for the dеtегmination of =SiH gгouр сonсrntrations in solutions on suгfaсes was devеlopеd' The method is basеd on thе геduсtion of ammonium tе by siliсon hydride gгoups and mеasuring thе speсifiс absorption at 1,=710 nm of thе solution of siliсomolybdenum heteropolyсomplех foгmed. The mrthod allows foг thе ion miсrogram quantitiеs of =SiH groups with a reаsonable acоuгacy. Kinеtiс ities of the hydrosilylation геaсtion bеtweеn сinсhoninе and triеthoxysilanе in thе of Speiеr's сatalyst have bееn studiеd in toluenе and isoproрyl alсohol by usе of a method. It was shown that thе hydrosilylation геaсtion of funсtional olеfin iсated by tгansformation ofthе сatalytiс systеm and sесondary proсеsses oссurгing in юlvеnt mеdium, in partiсular the hydrolуsis of =SiH grouрs. uсtion fu known, thе synthesis of сompounds with Si-C bonds oftеn involvеs the ylation rеaсtion сonsisting of thе addition of unsaturatеd organiс сompounds to SiН undеr thе influеnсе of сatalуsts and еlevatеd tеmprraturс [l]. In an еarly papеr Chuiko et aI Iz7 it was dеmonstгatеd that suсh a rеaсtion on a siliсa suгfaсе is of iilаг intеrеst for pгoduсing сhеmiсal modifiсations With siс bonds. The proсеss pгoсeеds tо thе gеnеral sсhemе: , / R.-.-fr* H П - g ; - H + H 2 c - с H - R + l . . . . . " ' , + si/l\ + Е si -сl l2- с|l2-R 69 whеге R is a suitablе organiс radiсal with v-arious funсtional groups and can bе гegardеd as a hvdrosilvlation rеaсtionТn *ьi.ь.ь. modified siliсa matrix сontaining =SiH groups aсts as a hеtеrogёneous hydrosilуiatr"в."iЫ'тys kind of rеaсtion where one of the interaсting speсies is fiхеd on a solid .",гui," *u-, сТassifled .. u 'oiа]pйasе hydrosilylation Dгocеssеs [3]. Тhouф an eшly attempt,o.й.'Jй-ййg-гм'i hydrosilylation-pr9с:ssе.s werе madе in 1952 by G.H. Wagneг and A.N. Ёines [+], tьi systemaii. й aouiьd devеlopmеnt of suсh reaфions and their usе fог .ь.*rcJ*oсiпсutron Ьf ,ili.u suгГaсеs beсame possible in thе last few years as a rеsult of еffoгts йrci, *",. mountеd ;;;p of investigatots from San Jose Statе Univrrsity, UsA t5-4sj;;;iь" ,.,"."ь '"".т'.o* Ьe InstitutеЪf Suгfaсе Chеmistry of the N;;;i,li";demy of SЪiеnсеs of Ukrainе [3,48.70]. -H (+)-Cinсhoninе !|-i=сH, Y*. тn (\\_ o _ cн"с H с H2N H о H(с H з)2 \-) .i (_)-Alprеnolol (_)-Cinсhonidinе o\-T'"H'cH=cH' \.А' N-AllYlrhodanine Fig.1.Struсturalformulasoffunсtionalolеfinsusеdforimmobilizationonthesiliсasurfaсe (+)-Quinidinr (_).Quininе Hemin '70 вoodш ! rРPr tL зсpeл [тu Ь n сll G [?o] cщ ok rЁз G l т q I Po i ilЦ b l lEr i LT b s a ) 4 iеs rф by )ns агs аtе the Bonding of оptiсally aсtivе сompounds on a siliсa suгfaсе is of genеral intеrеst bесause en approaсh expands the oppoгtunities foг the synthеsis ofоhiral stаtionary phases usеd dtе separation of еnantiomеrs in biologiсal systems and сliniсal samplеs. In some сases thе ilylation rеaсtion was utilizеd for suсh synthesеs, for examplе in thе сasе оf quinine [7l ], [72], сalixarеne [73] and R(+)-1-(с-naphthyl)ethylamine [2s]. Тhе foгmation of in moleсulеs with doublе bonds suсh as a numbеr сinсhoniс alkaloids (quinine, idine, сinсhoninе, сinсhonidine), and in alprеnolol, hеmin, and N-allylrhodaninе (Fie l) its onе to usе thе сatalytiс hydгosilylation reaсtion for thеir immоЬilization on a siliсa [70]. In this papеr thе гesults ofsystematiс геsearсh are disсussed, inсluding the effесt thе сomponent ratios and reaсtion сonditions, kinеtiсs of сatalytiс hydrosilylation of olefins, and thе sidе rеaсtions taking plaсе undеr thе tеst сonditions. rimеntaI Quininе, quinidinе, сinсhoninе, сinсhonidine, alprenolol, N-allylrhodanine, hеmin, .6н2o (atl from Aldriсh); tгiethorysilane (сhеmiсally pure' Kremnepolimеr), ЬМozoи.4Hzo (analytiсally puге, Rеakhim), asсoгbiс aсid (Kyiv vitamin faсtory); toluene, glaсial aсеtiс aсid, Hсl, Ko}I, Cao (all сhеmiсally purе, Rеakhim) and molесular siеvеs wеrе used. Siloсhrom with a spесifiс suгfaсe area of about l00 m2g l was as thе siliсa support. Toluеne and 2.propanol wеre subjeсtеd to additional drying by methods bеfore usе. Watег was douЬly distillеd in a glass apparatus. IR spесtra wеrе mrasured with a Fouгier-tгansform IR speсtrophotomеtеr by the diffi.lse :аnсе method in the rangе 4000.600 сm.l. A Gх-27o instrumеnt еquipped with a probe- - _ e - ' - сross polarizatior/magiс angle spinning (сPA{AS) was employеd to obtain solid-statе rсlеaг magnetiс rеsonanсe sрrсtгa. Thе spесtra of thе funсtional olefins, the solutions igated, and the сonсеntгations ofthе bondеd organiс compounds aftеr the dissolution of weiфed poгtion (10 mg) of modified siliсa in 5 ml(or in 4 пrl) of 1 М potassium hydгoxidе wеrе dеtermined by UV speсtrosсopy (Spесord Uv.иs). Siliсas йth attaсhed :SiH groups (samplеs I and II) wеге obtainеd by геaсtion of with a solution of triethorysilane in ethanol followed by drying at 70"C, Samplе III pгeparеd by adding Siloсhrom to an rthanoU0.l М I{сl solution, holding the miхturе for h at 70oC in a regulated tempeгature bath, whilе adding triеthоrysilanе, and allowing the ion to proсess fоr 2.3 h at the samе tеmperature. Finally the produсt was washеd in or ethanol and then dried at 70"C. Thе dеtегmination of =SiH group сonсrntration in solution and on modified suгfaсes was сted bу a сolorimetгiс mеthod,"developed by the authors whiсh is based on thе spесtral igations of the reасtion produоts with ammonium molybdate or yellow siliсomolybdiо id. For preparation of thе 2.5 o/o ammonium moфdate solution, 5 g ammonium ybdate [(NЩ)oМolozц4Еzo7 aге dissolved in 200 ml of a 5Yo acetic aоid solution. $or сomрlеte dissolution the mixture was heated on a watrr bath at 100"с. Thе rеagent сan be вd for a week. For longег periods of storagе, a whitе prесipitate of molybdiс acid is usually . Thе standard triеthorysilanе solutiоn was prepared by adding 2 ml of HSi(oCzHs)з to 9.s rnl isopropanol. Then l ml of this solution was plaсеd into a graduated glass tubе and 9 ml disopropanol was addеd. The standaтd solution pгeparеd in this manner has l.08. l0.5 mol iсthoxуsilanе in 1 ml of standard. Thе solutions foг spесtгa of model reaсtion produсts in the visiblе rеgion is prоparеd as : eithег 0.2 rrr1 of a water solution of asсoгbiс aсid (l.4.l0.2 moИL) oг 0.25 ml standaгd horysilane solution in isopropanol (1'08.10.2 mol/L) oг l0 mg of modifiеd sitiсa with 71 1.4'10.4 moUg of bondеd :SiH groups aгe addеd to 4 пrl ammonium molфdate solution. Then 0.8, 0.75 or l ml isopropanol йoьЬr arе геspeсtively addеd. Thе mixtuгe is stirrеd, thеп it is hеatеd on a boiling watЁг bath for 5 minutеs. lt is nЬxt сoolеd (in the оаsе of siliсa it is also filterеd) and finally .ь" op.i"ur densitiеs оf thе rеsulting solutions are measurсd. In the сasе of the rеaсtion with yеllow.siliоomolybdiс heteropolyaсЙ the ryoсg{че for the analysis is the samе' rxсept that 4 J Ьг yerь* siliсomo^lyЬdiЬ hetеropolyaсid is addеd. Siliсomoфdiс hеteropolyaсid rlras p,.p,.а as fоllows: 0.012 rnl of triеthoiysilane was addеd to 79.988 rnl of a 2.5 oА ammonium molфdatе solution (thе rеsulting solution consists of 2.8.10{ mol of tгiеthoxysilane in 4 ml). Procedtlrеforthedеterminаtionof=SiНgroupс?ntelтto!compoundsinsolution.4m]l of ammonium moфdate solutioп is intrЬduсеd into Ъach of two graduated tubеs. Then in onе tubе from O.O1 to 0.; ; of thе test solution is plaсеd (depеnding on thе еstimated сonсеntгation of =SiH groups) and the volumе is brought up to 5 ml with 2-propanol. Тhе tube with is thеn сlosеd, Ъ1'Ъj and plaсed in a rеgulatеd tempеratuге bath at 80oC for 5.l0 minutes. Thеn a strёam of running water сools1he tubе. If thе solution bесomеs сloudy aftеr сooling, it is filtеrеd' Then thе sоlution is measured spеctгophotomеtriсally and the сonсentrationof=SiHgroupsisdеteгmiпedfromthеcalibrationсurvеoгitisсalсulatеdbyusе of a сalibration сurvr еquation' The сonсеntration of =SiH grouрs in the analyzеd solution was dеtегminеd bу usе of thе formula Csilr (mol/L): Cвtiь'.S, whеre C""шь. is the сonсеntгation of =SiH gгoups in thе final mixturе. Proсеdurе r* iin detеrтninаtion of aSiH group сontе.nt of.compounds bondеd to thе suфce af siliса. гrom t to 200 mg ofЪ modifiЪd siliсa is introduоed into a gгaduated tubе (dеpоnd ingonthееst imatеdсonсешrat ionof :S iHgroups) , thеn4mlofammonium molybdаtе solution uni-i ы isopropanol aге addrd. тhе шbe is closеd, stirred and plaсed in a rеgulatеd tempeгaшrе bath at 80.с for 5-10 minutеs' Thrn the miхture is сooled by a stream of running watеr, filterеJ and trrе optiсal densitу of thе bluе solution is mеasuгеd at 7l0 nm. A blank solution i, p,Ьpu."а йtьout adding sil-iсa. The сonсеntration of :SiH groups in thе final mixturе is detеrmined by a саlibration сuгvе or is сalсulatеd using the equation of сalibration сuгvе. тье "on."nйution of =SiH groups in analyzеd wзighed portion of siliсa is determinеd by use of thr formula с,,nйoй)=6*uo,.5.1o,/* whеrе C-шь. is thе сonсentration of =SiH g,o,,p, in the final mixture, m is a wеight of siliсa in grams. Proсedurе for Йnetic mеаSurеmеnts.--вЬ, tь. prе|aration of all solutions idеntiсal оonсentгation. "f ,;;;;Ь''й--i;'.;oi mot) and cinсhoninе (3.10a mol) wеre usеd. Dеpеnding on thе й",i*Ь*, tье" pьсшatysi is aaаеа in an a.mоunt whiсh in 1000 times (з.10n mol) or "ъ;;';;'.ii.'' цol) is less than HSi(oCzHs)з сonсеntration, B.сyclodеxtгin ь tuк"n ii"*;;Ы ii.ro; *ы Thе 0.04 пrl of thе соnсеntratеd aсetiс aсid is added for dissohtйn Ьr "i,"ьonin.. voro'* Ьi solution is brought by solvent up to 10 ml. Тhе triethoxy.ir*" i",.й.J "t", зo ый' uteг intеrmixin'of olеfin, Pt-оatalyst and solvent.Thеsolut ionsareplaсedinathеrmostatat80oCandafteгaf ixеdintеrvaloft imеthe tеsts of reaсtion 'i"tu,o аi,е sеtесt"с and arе ana|уzеd as it was dеsсribеd above. Results and disсussiоn |14-767, suсh as vaгious Numеrous .uoty,'' foг usе in hydrosilylation reaсtions, сompounds *d "","jЁi:"' "ior"й"* ""ii,""'i'i"" metals (pt, кь, Pd, Ir, os, Ni, Co, Cr, Ti, Fе), are known. тi" 'o,t effeсtive J]h; most frеquently used in praсtiсe arr all Рt-сontaining сatalysts (in paпiсula^r, 'ь" spЪi"., Karstedt and.Lamorеaux сatalysts). It should bе emphasizеd that-й; ;;ivity of pt оatori,й ь й..u*.d in the prеsеnсе of a number of 12 i ) f J е А € ) r lу 1е t€ zrs of hе bе 1 a am цn thе of r i s thе iса1 s€d mеs ion, aсid r m l . aлd : thе nous r, Tt, е all nouid еr of nds (oxygеn, aldеhydеs, unsaturated kеtonеs, оyсlodеxtгins, aсеtylеniс еthеrs and ) whiсh сan Ье regardеd as со.catalysts of the hydrosilylation геaсtion. Iп thе fiгst stagе of this woгk, an attеmpt was made to immobilize the сhosen aсtivе by bonding to =SiH groups whiсh weгe prеviously fixеd on thе siliсa sцгfaсе. Foг F,шposе' siliсa with 7.|25.70.4 moUg:SiЕI groups was usrd (sample II whiсh was obtained abovе.desсribеd method). Thе сovеragе of =SiH g[oups on siliсa was deteгminеd by thе iс method. Solid-phase сatalytiс hydrosilylation of сinchonic alkаloids was as follows: l00 mg (3.4.104 mol) cinchonine, (or 110 mg (3.4.i0.4 mol) quininе, шg (3.4.lO.a mol) cinchonidinе, 1l0 mg (3.4.lOa mol) quinidine), 9.66 ml fresЫy-distillеd , and 0.04 ml fгeshly-distillеd aсеtiс aсid wеrе addеd into a glass rraotor. The solution lrсatеd on a water bath at 80oC in order to сomplеtely dissolve thе alkatoid. Тhеn 0.3 ml Sфеr's сatalyst (0.0l М solution ЦPtClс.6Hzo in 2-propanol) was added to thе reaсtor, was сontrollеd at 80oC for l h. Thеrеafteг, l g Siloсhrom was addеd into thе rеaсtion ion The соntеnts wеre well stiпed and weге hеld at 80"с for 10 h. Solid.phasе ilvlation rеaсtions for other аlkaloids wеre сonduсtеd in a similar matrner' The modifiеd were dried at 80oC for 2-3 h and at l00oC foг 2 h. Thеn the driеd modifiеd siliсas weге еdly washed by a 0.5 % solution of an aсetiс acid in 2-propanol, еaсh time mеasuгing the of alkaloids by speсtra in the UV region. The washing of thе siliсas was сonduсtеd as as thе сharaсtегistiо pеaks of alkaloids appearеd in the spесtra of thе гinsing liquid , it was neсrssary foг 100 to l50 ml of a solution of aсetiс aсid in 2-propanol for ing of l g of modified siliсa). Тhe produсts were dried at 80oс for 2 h and at l00"C foг Тhе сonсеntrations of bondеd organic сompounds wеre dеterminеd by UV speсtrosсoрy e сaliЬrаtion сurve which was сonstruсted from standard solutions of the alkaloids in рanol. To do this, a weiфеd portion (l0 mg) of modifiеd siliсa was transfеггеd into ion by dissolving in 4 ml of 1 М potassium hydroxide' As the speсtra of alkaloids in ions of 2-propanol and alkali aге idеntiсal, a оalibration сuгvе foг thе сonсentгation of functional alkеnes on l g of the siliсa was dеfined. The rеsults obtained aге shown in Тфle l . I immobilization of сhiral sеlесtoгs on a siliсa surfaсe йth boпdеd =SiH gгoups. Bound olеfin сinсhoninе quinine сinсhonidine quinidine Total amount of olefin usеd (mmol) Amount of immobilizеd olеfin on thе siliсa suгfaсe (mmoUg) 0.0210 0.0з44 0'0з24 0,0229 0.34 0.34 0.34 0.34 Тhus, on the basis of the data obtained it is observed that thс solid.phase hydrosilylation lon involving surfaсe =SiH groups and funсtional olеfins рroсeеds with low yiеlds (up to %) in rеlation to the suгfaсе sites. Thе problеms еnсountеred сan be eхplaiпed by invoking mесhanism proposed by Lеwis |17 ' 78J foг thе hydrosilylatiоn геaоtion. It is pгesumеd that hуdгosilylation rеaсtion is оatalyzеd by Pt-сolloid (wheгe Pt is in the zеro valenсе state) l э and the attack ofthe hуdrosilane preсedеs the attaсk ofthе olefin. Thе impoгtant influеnоe of ;;;; "' ""-Ъ"Ыyu is ик"n into aссount; beсausе a Рt.сolloid is only foгmed in the presenсе оf oхygrn. From thе p,o|o,"с mеоhanism, onе of the difiiсultiеs for сaгrying out of thе solid. phasе сatalytiс hydrosilyйtion теaсtion, as сontrastеd with simi1ar proсrssеs in solution, сan be Iй;j;;i;,.,i.i.t.a й!'ation ortьЬ Pt.сo]loid formеd along the siliсa surfaсе. Hеnсe, it is possibiejo u,,u*" that diffiсuhiеs of immobilization of funсtional olеfins bу meшts of sоlid-phase ""iыy,i" ьyоrosilУlation rеaсtion may bе sоlved^ if the hуdгosilylation of thе hydгosilari. unс orйn i, p"Ь*"j in solution with subsequent formation of the rеaсtion produсt on thе surfac. ruy", Ьiы", syntheses^have bееn rеpoгtЪd|7|,137' For immobilization of the aсtivе сompou,ii.*ol.iJ,iiйu ,u,гo." wе havе сombined into one pгoсess thе hvdrosiMationгеaсt ion(a)andtheсommonsol.gеltransformations(D)thatrrsults ina p,'o..* Ъ"'"ribed by the following genегal sсhеmes: Pt-сata|yеt (c2Hр).siн + cHz: сHп j (сzHso)зsicH2сH2R (а) + HzO : si + (с2H5o)3siсH2сH2R I : si_osiсH2сH2R (b) The main еxpеrimеntal proсеdurеs usеd aссoгding to these reactions are dеsсribеd below using thе еxample of сinchoninе bonding. 2-propano1 йra dried ovеr.4A moleсular siеves rrras used.5mmol(for l0gsi l iсa)сinсhoninе,zо.пr l isopropanol,0.7mlaсеt iсaсidand0.05п' l Spеiеr,s сatalyst (0.1 i; ,oliio, of H,Ptсl6'6I{2o i'' z-p'opanol) wеre addеd to a glass reaсtor. Thе rеaсtor'was сontrollеd at 80oC ьr зо min. Thе rеaction mixtuгe was periodiсally stiпed. Therеafter' 5 й;i tгiеthoхysilane was addrd intо thе reaсtor, and the mixturе was hеld at 80oC for 6 h. It should be noted that thе amount of Spеiеr's сatalyst in thе геaсtion mixturе is 100 times less on a 'ola, basis than the amount of thе hydridе-сontaining сomponent triеthoxysilaliJ. тt,.n, 15 ml of isoгйa"or 11d^-T.9^'"*"*"m wеrr addеd into the rеaсtor and thе ',io;,; ** к.pt at the same tеmpeгature for 1 h. Thеrеafter, 1 ml (0.055 mol) *u.". *u,laJ.с *a ..uйion mixturе was plaЪеd in adesiссator for 3 h at 100oс. The driеd modified ,ili;;;;;pеatеdly *uй *i'ь isopropanol and the pгoduсt was again dгiеd for 6 h at l00.C Мodified si1iсas, сontaining other funсtional olefins (quininе, оuinidine, сinсhonidine, alprеnolol, ш.urrя,ьodunine, ""j,ь.'iо in the bondеd layеr, *"," ,щth"*ized in a similar manner. Тhе appropпate arrlounts ofreagеnt u,.a гo' the synihеses and thе flnal amounts of ;;;;;; й;; Ьoiеitiеs obtainеd are listed in the Table 2. The synthesi,.с.Ы , сontaining immobilizеd aсtivе сompounds, weгe charaсtеrizеd by IR spеоtrosсopy ;lt;i;;';tffп,; J{r..."".. (DRIFT). and high-геsolution solid statе '.с Nlr,ш.. ть" сonс"nt';;й of bondеd uй. .o*pounds wеre detеrmined bу mеans of UV spесtros.oрy, ь"""u,e the ub.o.ption ,|."t.o oi tье ч,чrе 'funсtional olеfins and thе absorption spесtra ",;;;;Jstanсes imйobilizеd on " jiliсa suгfacе and thеn transfегrеd intosolutionbуtreatmentbyalkаliyeth1э.9amе.Thisallowsonrtouseofthegivenspесtгal rеgion for quantitativе -сiarjсiеrization or цe lйoьilizеd substanсes. IR speсtra of modified ,t'il;й;ь*.а "i"Jй"i;; й N-allylrhodaninе arе shown in Fig. 2. 14 Ls n- s*t . r t < ):. t c т:.. C цп l f :...е : еr1 iсc 2 nеnt гatios in thе sрthеsrs of modified siliсas and the final amounts of funсtionalbonded to thе mаtriх surfaсе. Bоund olеfin olefin Solvеnt ьr тri 2-pro. Siliсa wat*__ Bo"d"d(mmol) olefin ethoxy- pйol G) (ml) groups silane (mD (йmoi/g) Ciпсhoninе 5 Ёс3н?oн + 0.7 ml снзсooн Quininе 5 l0 ml 5 25 10 l 0' 13 i-с3н7oH + 0.5 ml Cн3сooн Ciлсhonidinе 5 10 mt 5 25 10 l 0.i3 i-с3н7oн + 0.7 ml с}i3сooн Quinidine 2 l0 ml 2.5 8 5 0.s 0.04 l:CзHzoH + 0.35 ml с}ъсooI{ lЁАJlylrhodaninе 5 l0 ml 5 25 10 l O.0l5 i-с3н7oll + 0.5 rnl CHзCooH Alpгeпolol 2 l0 ml 2.5 8 5 0.5 0.007 ЁCзHzoH + 0.7 ml снзсooн Hеmin l 4.5 ml 2.5 8 5 0.5 0.0l нсoN(сн3), + l 0 m l ,.с3}I7oн + 0.1 rnl It is sееn fтom the IR sрeсtra ofthе modifiеd siliсas that the absorption ofSiH bonds is еtely absеnt (disappешanсе ofthе band at 2250 cm-| геlating to thе stгеtсhing vibrations 75 of thе :siн groups). Тhe solе еxсеption is thе speсtrum of the siliсa sample сontaining immobilizеd N.allylrhodaninе. The lowеr dеgree of=SiH group substitution in the lattеr сase is most рrobably deierminсd by inhibition of thе сatalyst as a result of platinum сhelation with N-allylrhodanine. nФ(, g:е Е o Cб l-- 1 0 0 9 0 8 0 7 0 6 0 5 0 4 0 3 0 2f,oЬТ W a v e n u m b e r , с m . 1 * oo g Еo g E 9 0 8 0 7 a 6 0 5 0 4 0 4 0 0 a v e n u m b e r , с m . 1 Fig. 2. D,RIFT sprсtra of сinоhoninе (1) and N-allуlrhodanine.(2) bonded to a siliсa surfaоe. The lзC NМR spесtrum for the modified silica сontaining bonded quinine (Fig. 3) shows thе сharасtеristiс pеaks foг thе сarbon atoms bеaring diffеrent substituents in thе quininе 76 шlg € i s \ith шlесulе, and a peak at 20 ppm сorгesponding to the сarbon atom direоtly bondеd to the -соn atom and to thе adjaсеnt сarbon atom. I L' I t \ r . | ' l . l - - д - - - j - l . . l . l , t . l l - . l lв0 t60 140 |20 ;Bi e0 60 .0 аo lt. 3. '.с NIv8. сP-МAs spесtrum of siliсa with immobilized quinine. This speсtral information сlеarly demonstratrs that immobilization of funсtionаl olеfins вr Ье aсhiеvеd by thе сombinеd use of hydrosilylation гeaсtions and sol-gеl tеоhnology and frt the сonсеntration of funсtional groups bondеd to the suгface matгix in this сasе is highег rbn thе amount of bonded bу solid.phasе сatalytiс hydrosilylation. Studiеs of the kinetiсs of thе сatalytiс hydrosilylation геaсtion of functional olеfins and рssiblе sесondary proсеsses weгe conduсted to dеtогminе thе rеasons hindering a grеаter dсgтee of сompletion of the reaсtioц in order to find сonditions whiсh will improve thе yiеld. l is partiсularly impoгtant to study suсh proсessеs in oгdeг to havе available a sеnsitivе, пpгoduсiblе and гeliable method for thе quantitativе detегmination of =SiH groups both in Ьdiйdual сompounds and in bonded gгoups on thе suгfaсe of solids. It has long beеn known фat volumetriс methods [8' 79, 80], based on hydrolysis of =SiH groups in an alkaline mеdium Ь most frеquеntly usеd for thеse purposes. In suсh a рroсеss gasеous hydrogеn is evolvеd. The lls is сolleсtеd above meгсury in a graduated tube (as in Cегevitinov's appaгatus [79]) or thе fпount of libеratеd hydrogen is dеtегminеd Ьy gas сhromatogгaphy [8]. oftеn' howеveг, thе &tегmination оf =SiH groups by this mеthod is difiiсult for a largе number of samplеs bесausе i is laЬoг intеnsivе and due to thе diffiсulty of estimating thе partial pгessurе of solvents, in рrtiсular whеn dеtеrmining a small amoцnt of =SiH groups. For this reason' thе appliсation of сoloгimetгiс mеthods, basеd on the use of thе rсduсtion propегtiеs ofsiliсon hydride speсiеs, appеaг morе praсtiсal. The reasonably fast and 1 1 shows quininе сonvrnient spесtгophotomеtriо mеthod for the detеrmination of ratheг small amounts of =SiH groups in сompound- *li;;.;;; i; solution o' л*,i оn a surfaоe of solids (in paгtiсular, siliсa) Ьas invеstigatес in thе piеsent paprr' Thо mеthod is based on a rеaсtion оf siliсon hydгidе sroups with an u*rn""ii'll йoiiйut" solution as a rеsult of whiсh a bluе siliсomolфdenum ::"d;- ;;;;;l il;;"1sъi!ity of.suсh an-inteгaсtion of сompounds, сontaining of =SiH sгouDs. with ammоntum molфdatе solution *u' p'opo'.d еarlieг izя1 тье reaсtion rеsults in irrе fЪ.mation of a siliсomolybdеnum hetеropoiyaсij (srnптд) whiсh thеn is rеduсed up to molvbdatе bluе. Additionui inгo*ution i, *oir,uьi;fi.;' othеr invеstigations [81-85] whiсh аеsоribe studiеs oг tь"'Бnаitions of гo,mation or both yellow S}4}IPA and its геduсtion (in paгtiсular, by asсoгbiс "i1j 1вi.ввl to thе blue si'iсomoфdenum hetеropolyсomplф. Thе prinсiplе oгtьь -.tьodis based on thе faоt that the hуdrogеn 9f an =SiH group сan геduое a solution oгy"шl*-iйпA to the ьь...йro. In this appioaсh, thr reagent may be both a уеllow *iri.o,noЬJ.*й ь.,.,op.oryu"ш unа ammonium molvbdatе solution. The rеduсtion of a prеviously pгepшеd yеllow s}"fiй 'o iь. ьru. сomplех" irobably, proсееds by the following sсhеme: 2 : si H + H4[si(Mo3o1o)J + 2 H?o -.----.._'> 2: siol-t + H4[si(Moр9ol.{)4] SмI{PAformationinthecaseofintеraсtionofaсompound.сontaining=SiHgroups with ammoniu* ,norфЬ..,oшtion uppu,.nф 'ukеs.plaсе тlh o.ц.toation of siliсon atoms while the hуdгogеn "'"'Ъ'й,.аo"tion of thе aсid to thr blue сomоlex. Thesе assumptions aге supported ьy .p..',й tйе visiьь rеgion of pгoduots of model геaсtions (Fig. о.,.i,.-,"u.g;ot, soiшЬi' "i ammonium molфdate and yеllow siliсomolybdenum heteropolyсomplеx -o. .й,* with геduсtion agеnts asсorbiс acid, a solution of triеthoхys'i"""Тi-p'"Ьol TdФ; siliсa with =SiH groups сhеmiсa'ly bondеd to the surfaсе. д, i, ,""i,i;;i;ъ;. "bt.iJ,";;;rьic aсiа.rJаuсed a solution of yellow SМI{PA (Fig. 4, .';;j. Ь;;p""."а, in ,i.Ъ*.".. of a siliсon sourсe asсorbiс aoid doеs not rсduсe tье a.nmo,iь-,diЬyьj"" ,"rшiч"ffi ;,.:}';. l). In сontrast, the triеthoxysilane solution, bеing not ;;; 'd",b" ф, 9"i uГ,o .ili.on sourсe' reaсts with both solutions (оurves 3, 4). The ';;*;;й;;b'йi"; й;;;йе reaсtion рroduсts (Fig. 4, сuгvеs 2-4) whiсh ше in ttrе ranй;|,g!-i2o nmЪelong to thе samе сompound - bluе siliоomoфdеnum hеteгopolycomplеx' ;й.p*;l;.ьi, ,"g,oi ;;;;;';*ed in the сasе of modifiеd siliсa as a rеduсing ug*n. JJ.liiн g,o.,p' ;;"'',, йndеd.on .its suгfaсе. Thr сasе оf tгiеthoxysilan",,ь" Ё,'u,ЫoгЪt'дe.,.euсti"" pi"i""t was deteсted not only in thr сasе оf intеraсtion of thе siliсa, сontaining ,iri.on ьyiяЪ"l.o:"у'..'*',l.yеllow shdI{PA (Fie: 4' сurve 6), but also in iй. "u." of Jontaсt oгiье moаined siliсa surfaсe with aл ammoшum molybdatе solution сгЁ-+, сurve 5). I. *,*;;;*;l_;йabsoгption bv siliсa of the теaсtiоп produсt doеs not ndй,Ъ;-;ь. .JiiJ *ш,i-;;й; |iaоtiсarry.сolortess' but the solutions in ihе immediate viсiniф ofihе siliсa suгfaсе ".;;;;;i;;. It is quie probable that thе amourrt оf solublе siliсa forms,й."."iiь. surfaсg l"'"';";;".'gh ror sшшшд foгmatiоn, аnd thс reduсtion to thе bluе ;й"й;"'nь* i'..j"i.а oulьуЪu'гu"" siliсon hydгide spесies. ... It was а"..й'"J.id", iь. Ь*utio;.;iй; pioduсt .of intегaсtion bеtween slшс'оfi hуdridе.сontai"i"g ;"й;;;: ""а й*""i'Ь,""шсl'" solution is сomp'еte in 2.5 h at гoom tempеraturе' Th" ,;;i;;l, "Ъ'pr"ч "n".Тiойnut", oг ь.uting thе iolutions on a bоiling watеr bath. opti"d;;;;iti., "iiьЪ sobtions studied at 7l0 nm arе unсhangеd over 2-5 hours. The еxpеrim""t"l d;; ;;;inJuыiаu,"'ь.'p"йpьotomеtriс,mеthod fЬr detегmination of =SiH group "on."йion ii .o'po.,nd. .ьш ul'"i" a solution or bonded to a solid surfaсe. '78 I I o roups Itoms :sil{ liса) lridе num :SiH ts in P t o lhiсh п (in ) ф n iy bе Тhе ds by )Н)4] model lеllow сid, a Jеd to ',еllolиr 1 doеs rsilanе lutions э.3 2-4) dеnum Шсa as asе оf д;е оf Fig. 4, nonium еасtion dons itt ount of шd ths i . siliсо* at room , boiling S houгs. ation of aсе. 1 . 2 Б t . o € 0.8 .3 o.o д 0'4 o_2 Wаvс length, nm 1:.'o.:':". оf intегaсtion p.roduсtsоf asсorbiс aсid (5'6.l0a mo|ll) (,t,2), triеthorysilane 4.loamol/L) (3,4) and modifiеd siliсa (weighеd poгtion l0 mg) *iй r.+.roJ;;';; пdеd =SiH groups (5'Ф With ammonium moфdate solution (1, 3, 5) or with a solution ofyellow siliсomolybdenum hеtеropolyaоid Q, a, Ф; (Z) - speсtrum of a solution of thе >w siliсomolybdеnum hеteropolyaсid; path lеngth of thе сеll ii 1 сm. Foг сonstruсtion of thе сalibration оurve in a numbеr of gгaduated tubеs, fittеd with .omрaсt stoppers, 4 ml ammonium moфdatе solution and varyiщ amounts of the standard ahorysilanе solution in a range fгom 0.54.l0{ up to 3.78.l0{ mol were added. The volume thе tubе is brought up to 5 ml by 2-pгopanol. The tubеs weгe put in a оontгolled tеmpегatцre for 5.10 min at 80-100oC. During this time thе absoгption гeaсhes a сonstant valuе. Thеn tubеs arе сooled undеr a flow of running water, stiггеd and mеasцrеd rtrophоtomеtriсally. Thе optiсal dеnsity of thе bluе solutions is measured at a wavеlеngth 7l0 nm iп сell with a thiсkness of 1 сm. A сomparison solution is usrd as a сontгol йst isting of 1 ml 2-pгopanol addеd to 4 ml of ammonium moфdatе solution. The measuгеd s of optiсal dеnsity @) and thе aрpropriate desiгed сonсеntгation of triethorysilane in thе solutions (Csi.н) arе used to сonstruсt a сatibration сuгvе (Fig. 5). 1 . 2 '; 1.0 ъ ? 0.E R0 . 6 o.a 0.0 Cn.1хl0., moVL 5. Dеpеndenсе of an optiсal dеnsity (D) of ammonium molybdatе solution at }"=7l0 nm in with a thiсkness of l сm vs. the сonсеntration ofaddеd triеthoxysilane (Csiн). 79 The reсtilineaг сharaсter of this dереtndenсе proves tЧthe.Plyti9п_s-ydуd ч:':thr Lambеrt-Buger.Beеr law within the сч'сеnшation range for HSi(oCzHs)з from 0.l to 0.8 mmoИL. Thе limit of deteсtion is equattо 0.025 рrnoйd. The equation of thе сalibration ;;ъ;""ol.ы'ir;;";;;;й devеloгеd'in a previols sfudy [s9] is as fotlows: p=(1946.l88 t 15.014';;н - (3.45'10.3 * 7 *.lgi), where the a,pafеnt mo1ar еxtinction Ьй.i"nt @) ofthe =SiH groups is щual.яз2000' In order to $ud;;йp"i'йrr,y of usiпg this mеthod fo'^ Ч. deteгmirration Зf =liЕ sгou's on a siliсa ,й;; й".'нg"iь"s. of tйе 9up"njT* of optiсal densф @) on thе ЬnсЪntration oг *iriоon*ili'йfЬБup' dissoйеd in.solution wеrr сonduсtеd. These rrsults werе obiained ьy *.".ЪiЪ"u.-*itь a given amount of bonded siliсon hydridе gгoups oг varying arnounts "f ;й;.;*oТй"а.**pй F;;; thе Fig. 6 (e b) it саn be seenthat a linear dеpеndenсе of ;р.t""' J"n*'ty оп to1j сoncentгation Ьг =siн gгoups in solшion is observed in both "u,",.-ii",",ш', ,ugg.*t thе possibility of detеrmining =SiH groups nоt oпly in сompounds whiсh ш" и a solutioйЪш aЬo thosе й *" pшt of сoпrpоunds bоndеd to a siliсa surfaсe a s ? э сtix10.. цoUL b Б.я tr ! e a Fig.6 (a, b). Results of determinatio".of:IJT groups in vшious.samples of modifiеd siliсa [l. samplе I with thr сonй. oгfi*ed =Siн gгiups l.75.los moUg (weiфеd portions . l0, 30, 60' and 100 'g)' " :.;;;йп ч.ь.ь. йnй' of fixed =Siн gгoups 1.|25.|0. moUg (weiфrd portions - 2,3,- ;;i.ч], t . 'PPl" III With th€ сontоnts of fixed =SiH groups i.+.iЪ;ЬЬyg (weiфed portions - 5, l0, and 20 mg)]. o.g. 0.E o.7 0.6 0.5 OI o.з 0.? о.! wGrЕ!сdрttioь пв 0 п l : n r"I l€ ls )г a is lу a It is possible to study the kinetiс dеtails of thе сatal-ytiсlrydгosilylation геaсtion by usingreniеnt and sцffiсiеntly геliаblе analytiсal mеthod. кn"tl" ййG;;;. wеre сonduсtеd1Ь hydгosilylation rеaсtion between triethoхysilane (TЕs) and сinсhoninе in a mеdium of ;.'i}:j::Т"":::".:jТ:i"I.ll'.: t.:senсе of th; ьйй -J"iй, The рroсess ofion is dеsсгibed by the fоllowing gеneral sсhemе: H2Ptс16 )зsiH + H ,C : сH -R з0o Z|0o Тime, min. (H5о2o)зsiCH2сH2 сonсentгation in сhemiсally purе isopropanol; (2) - solution of in isopropanol; (J) - sotution of and сinсhoninе (3.l0a mol) in я .Б 0'8 с € 0.6 б 8 0.4 o_ Б o'2 7. Kinetiс сuryes of thе dесгease of =SiH gуouo rpanol: (i)-нsi(oсЛs)з solution (3.l0.a mol) in )з (3.l0.4.mol) and н2PtCl6.6н2o (3.1o? mol) )3 (з.104 mol), H2PtCtс.6Hzo 1з.to.7 mol) Тhе kinеtiс сurvеs for thе dесreasе ofthе сoncentration =SiH gгoups in an isopгopanol um (сhеmiсally pure) аs a funсtion of timе aгe shown in Fig. 7.Ъor TЕS iп isopгopanol no сhanges oссur as eйdеnсеd by сonstant values of1hе optiсal dеnsity (o1. a, a oftime (Fig.7, оurvе l). In сontгast' a fast dесrеasе of=SiH grЬup сontent takes plaсе time in the solution сontaining TЕ,S, isopгopanol and вьсйtysi (Fig, 7, "..-" z1. trlysts сan cata|уze the hydrolysis of =SiH gloups as has beеn sugрstеd [49] on ейdеnсe from IR-spеФrosсopy data. Thегеfore it is necessary to assumе that in сhЪmiсally pure шoI residual аmounts of wateг iie present, and would bе suffiсient to hydrolyze =siн i. Thе dесгеasе of =SiH group сonсеntгation with timе oсcurs also in thе сasе of thе ilylation геaсtion between I{si(oC2II5)3 and сinсhonine in isopгopanol solution in the Spеieт's сatalyst (Fig. 7, сuгve 3). It оan be sren that the dеcrеaie ofthе =SiH gтoup rtion in this hydrosi$ation rеaсtion oссurs сonsidеrably sloweг as сompared й thЪ =SiH groups in thе isopropanol/TЕS/Pt-сatalyst and isopropanoVсinсhonine/Pt- s/TЕs systems (Fig. 7, сurvеs 2' 3). tt is quitе сonсeivable thЪt in the сouгsе of thе losilylation proсеss thе transitional complexеs of thе Pt.сatalyst with thе olefin and TЕS trmеd, геsulting in a slowеr proсess of hydгotysis Тo pгеvеnt hydrolysis, the study of the kinetiсs of the dесrease of thе =SiH €roupпtration was done in a mеdium of сarеfully driеd isopгopanol (dried above Cao aй +д sievеs and thеn distillеd). The results obtained aге shown in Fig. 8a. Foг thе system 8 l iliса 10 , F,vg ){lPs iЁ{li*оtlгtli:snrli 1}rg. 8 а, сilrvе i) thе.rrsults соil,ls.:id* *il "ч1i:.-tаinеi1 еarlieг (Fig. 7' r:..,rrn',е '!)' l.hi: .irlldкэl:д;;,;;;,' -i*.ulYg:-рs !n thе s:.jsт.'l! isоpгоlзanоUTЕS/Pt.сatаlуst с:an bе рraстir:allу еиrтunatеd bv thе t.lsе nr*.iu,Ji*ошrсрaпоi (F'r.в 8,в' a;ц1.*,е 2)."Тhе dесгеasе *li thе =5i}1 g,u',р *un,*un .,liь tь,,* in ,ь. .u** Jf iь* ьy,l'n'iiviatiоn гraсtiоn lэеtъvееn TЕS and сtтrсhоnrrjе tn а, rпeсliutlr *rf сiriеd,*uрoopйiЫа,s'inu:е*igatеtl,,аs * fun*tign trf diffеrеnt а.friФunts *f Рi."*a'talуs;*!u;-Ъ ;: "u*Ъ* з'. *i, --* alsо*f,*r*thе яas* *f sirзluitaneous ilitг{jdilei'ion irttо ttl*,.,*'**"i,u*ьРt.catailstan,t p.й*tо*еxtrilr"{'Fig 8 а". сцг;e 5}' Eoththе iiaia о' ртеviоus чl,огk' i901 and thе,rеsultsrэiэtui,,*с io our- stutlu,. iцdiсatе tirat $.сусlосlеx1rin in ;о*-ii;ii.ietii:tl i::it}r e Рt.сetа,iуst a{rсеlеretеs Г,Ydгоsli',,iatiоrr рrосess. ii rs nес*sseтi,- rо takе intо с:оnsitlегatiоn that сaiaiyiс sуstеin 1таn*t'огmatiоns сan rеsult in thе рrеsеп';* ot *.ut., *olесutеs in a mесliurгr ;; iй;";--"i Y*Р a Рt.саtai,zst. Thеreforе tt ъas сiесtcеd ,n *o,'о,..,;;;;;;.; kinеtrс "-аi-' и - l'*ji.,* or'oйеnе whiсh prеъ:iоuslу was ;ff;;ffiff;;:;iЖ'Ж;;;йе йuеstigatiоns arе shоwn u, ;* *o $ it., * h,.nlltU Ll:Г.,е5.ibг thе кlесrеasе 1n =SiH Еrоuр сеriсеn..:,,o-o.,rn тhе mеdiurn of dгiеd ,s. l ; r l :а,R ' , , t l .аr аnd," , ; ; ; ; i . i - sotur iоn ттs iз"11-. . rn i : l \ : . , . s ' ] tutrоn TЕS {3.10.a mol) on,j Ёt,t,tСi.,.5il,О r,з,l;:;,;;ii' l - sоlutiоn-Тi,S.i..,'. rnоi) сirrсhоninе i3"i0.a mol) and НzPtСlg.6l{:О iз ]'0-, "*;,)'^,''- sоlutiоn тis ii iо- *oii, сinсhоninе (3.i04 mol)' L{',РtС16.6}{2CI (3 l0.- *"'j. :-" -:*:]"1j;s'"ti**..*oil, сinсhоninе (3.1сl-4 mol), t{:РtСlс.6}tzO (,-].10., *ф "-o p-сусlоdеxtгi-й,, io'mо1); о. sоiutiоn TЕ,S (3.10.a mоlj a*l й;,;i";еxirin (2,2.10-6 mol) in isoproрanоl. Fгоm tlrе abсve геsults it apреars tirat thе сhangеs in the =Sij] g]"оuр с,onсеntгation whiс.n wеrе obsеrvеd ",t;;.ffi;.noi ь. e.*,,iй*j.щ i"у simр'e kinеtiс еquatiоn bесause tn раrаlt;lwlththеhydrоsilуlatiоnрr0сеss-va.lou*,*"on*tuЦ.,ч'oo*:-'-:sandtiansfоrrnatiоnsоi thе сataiyiс sуstrrn take рlaсе Thе =SiH g,"uр l'у*,,,tу*i, i, u rnajor sесоndary proсеss. In alrсlthrr rеtlort [91] i'.*J,loi"t*d оut that1;,";;;;'; сi а..hvdrоsilvlвtiоn rеaсtion in аn Щ;;J- т:*ж* r;J*i; il: '' ''--,1:Ж-{1тц1жt,Jfffi:, 'J}";Ё.i t тiеthо.tуi sr. p гор 0xу st i a hvdтоsii,'.[a,,o,, .*u"?io.n,j"-ii." p**: -т;'жт*j,ж:ъ"Ё; Ё"}'],fi'fiiiil.'J''i:: *lt'aт;l-liJ#i:J*.:-il1ъi":".x;:r;й:l:;Ж";; *ulс*no",*.'1vеd fгоm оthег сraiatУzjj" l,J .'1*".. Ье notесi that durшrg ihе first 80-i00 minutеs оf the hуdrоsilylatiоl' iL sLlоuiti aisо rсо.сt.it-';i,,,',,оi,,oрun.,-j mеdium (Fig. 8a, --;;; i::i:,::*:l.сant dесгrasr оf thе =SiН grоuр с*nсеnt iа i lоn{ in i t ia ipогt iсrnоfthеkinеt iссurvеоf=SiF]grоuрl*ss) ,dссurs.Thеgrеatestгatе t : . ::г l i : г . Tttrr :i:т . t l ' . : t t с S n rs € ;n Llt it LS tlron sе in s o f s I n п a n rhiсh sе of Г the thеn oфег lаtion 3rouр i гatе rеd юl) and юl)' bl), nol) tЬс reaсtion сorresponds to this poгtion ofthе сurve. Thеrеaftеr thе reaсtiоn гatе is shaгply псased and is staЬilizеd. In an еarlier work [9l] it was statеd that the rеason foг.an rcased ratе of геaсtiоn in the first stage is duе to the proсess of reduсtion P(Iv) + Pt(II) Рt(0) whеre an unstablе intermediatе сomplеx of platinum tP(шI) and P(I)] havе inсrеased iйty. Thе hydгosilylation in a toluеne medium @ig. 8b, сurvеs з.5j differs from the ion in isopгopanol first and forеmost by ratе. It is nесеssary to pay spесial attеntion to thе thаt different сonсеntгations of the PЬсatalyst signifiсaшly -inhuinоe the гatе of thе вilylation reaсtion. Fгom the data obtained (Fie' s a, b, сuгves з, 4) it is obvious that in сasе of thе addition of Pt-сatalyst in an amount in l00 timеs smallеr than TЕS [гation, thе hydгosilylation proсеss proсеrds muсh faster in сompaгison to the systеm thе h-сatalyst сontеnt is 1000 times lеss than thе tгiethoxysilanе conсеntration. 3 сomponent ratios in thе synthesеs of modified siliсas and the гesulting сonсеntrations nal groups bonded to the matrix suгfaсе. Wеiфt Solvеnt for of сin. olеfin фоninе (mg) Volumе Volumе Siliсa (g) ofPt. ofTЕS сatalyst (ml) (ml) Vo]umе Amount of0,1 М ofbonded solution groups нсl (rr'l) (mmoVg) l00 9.74 п11 toluеnе + 0.04 rnl сII3сooн l00 9.7l ml toluenе + 0.04 ml сн3сooн l00 9.44 m| toluenе + 0.04 ml CHзCooH 0 0.22 I I 0.0012 0.0з 0.22 I 1 0.0128 0.3 0.22 1 l 0.0676 100 6.74 m| toluеnе + 0.04 ml сн3сooн 9 . 71mI ЁCзHzoH + 0.04 ml сн3сooн 9.44ml i-CзHzoH + 0.04 ml сII3сooI{ 0.22 0.0340 100 0.03 0.22 0.0200 100 0.3 0.22 0.0404 83 With thе сombinеd use of thе сatalytiо hydrosilylation and. sol-gel teсhnologу studies in ordeг to deteгmine thе сonditions of thе ,рiй"i. ihat proйde maximum сovеrage of the funсtional olefin on thе surfaсе of siliсa ..,"-.uй"а oш. д numbеr of synthеsеs utilizing сatalytiс hydrosilylatiоn *J ,or-g"l tгansfогmation were usеd to bond сinсhoninе to the suгfaсе of siliсa' and in so doing ihe сonсеntration ofPt-сatalyst and thе naturr of a solvеnt were variеd. тtre sрthe*.. i.," pеrformJ _simult*.ouф and сoncentrations of thе сinсhonine (0.34 mmor) qnd TЕS (l.2 mmol) wй rcpt сonstant.(it.should bе noted that thе TЕS conсеntration wa,s Тou. tм", grrater 'й йotЪг сinсhonine). A 0.01 М solution of н2Ptсt6.6tl2o in z-p,oЬ*oi (SpeierЪ ̂ сalal.yst) was used. T1r toче1rе and aoetiс aсid wеrе prеviouslу distillеd. ,;-.;;d;;; сriеJ aЬo.," йcium oxide and 4A moleсular siеves and ih"n **, distillеd. The synthеsеs wеrr e*"",,t"d "' iotto*'. the сinсhoninе was dissolvеd in toluеnе (or in 2-propanol) along with aсеtiс aсid, then the appгopriatr amount of Ъpeier's сatalyst was added Jiь" sohtйn was plaсed in a герlatеd.trmprrature bath at 80oC for 2 h. Then the TЕS тvas "dd;.iь","".tio,,.uotution.'n,as stirrео w"ll. тh" reaсtion solution was again рlaсеd in tr," .onii-ottJi"*p.,*. b'ч;; вoiс for 10 h. After that, 1 g Siloсhrom and 1 ml 0'l М of solutio' нсi*o. "са.o i*o the sotшion and the mixturе was hеld at 80oC foг 2 h with periodiс ,tiм'Ъ.1ь".т"aшеd siliсas wer. а,i"с at 70.80oC fоr 2 h and at 100oC for 2 h. Then thе driеd *ojifi"d siliсas rvегr 'Ф;;й *asьеo ьy a 0,5 Yo solution of aсetiс aсid in 2.propanol. Washini.ia's-.ч1а*.1.*'ii'h. ;й;егistiсieaks of сinсhonine disappеaгеd from thе spectra oгtь".,i*ing liquid. Theсlean modified siliсas wеге driеd at 8OoC for 2 h and at 100"с for 2 h. rо *e "itй modified ,iri"" *u' сi'solved in 4 ml 1 М solution KoH for the detеrmination oгtьe u,io]uш;fi;.;d.inсhoninе and the spесtrum of thе alkaline solution in thе UV region *u, ,ul.Ъ]i.iь" conсent,ati;;iй;еd gioups in moVL wеrе dеfined from the сalibrаtion сuгv. Б, .i*аu,с solutions of сinchonine in z.propanol and the сonсrntrations of bondеd сinсhoninе groups ь m*oyв.y";;;i;;;йьy maнй thе nеoеssary сalоulations' ''.'?::::*1'J"*жJl."Ж'lJ'':"''l'*1',*. qr.eatest'P9tll.:-:{,h. сinсhonine bonded to the siliсa surfaсе ";;;j;;;' й" *"аrtь"' or.iй. 'yntьois listеd in numbеr 3 (Table 3)' In this сase toluenе **-;;;;;;soьеnt, *d й;;;.it,ution of thе Pt.catalyst is in 100 times lеss than thе сonсешration ofthe сinсhoninе. Tablе 4 Componentratiosinthesрthesеsofmodifiеdsiliсas,andthеfinalсonсеntrationsoffunсtional й'-й. ьonа"d to thе matriх surfa.се. Bound olеfin Amount of olefin Гofuent for olеfin Amount ofbondеd groups mmol Quinine Cinоhonidine Quinidinе Hеmin 0.34 (se)N.Allylrhodaninе.' .нlp'.,'otol 0.3 4 (9,|) 0.34 (110) 0.34 (100) 0.з4 ( l10) 0.r7 (110) 9.43 ml toluene + 0.05 rnl сtl3сooн 9.43 rnl toluenе + 0.05 ml CHзCooH 9.43 rnl toluenr + 0.05 'nl сI{3сool{ 9.48 ml toluеne 9,44 m| toluеne + 0.04 ml сtlзсooн 0.14 rrilHCON(CHз)z + 9.з4 ml toluеne 0.093 0.112 0.096 0.034 0.063 0.028 84 Using thеsе сonditions foг the gгеatеst yield of.bonded сinсhonine (Table 3, synthesis 3; *:*;';:i:Тl,l1d.''!: .+:"й;i.oi'ь" сatalyst in 100 timеs lеss tЬяn tЬo:iТ'lJli:,":уjь,т:d:ij1"*{:ii1#l.*:iilЬ:,.l.':*Т"lН"l1Т;l:п of TЕs (l.2 mmol), thеvolume ".P;;6; Ёжi,НT:'#l,ii;ljT'*Тilli 3Y: T;"*,l; l;'у rfl уj::,'"' :l i Jj.;;;; ; ; ;;ч;;i ff Jil*,i,n", ".. The гesu й saге shown in Table o '1.^ Yrч"li" "iЪp..",r;j,Ж;ii:,iilJ':,ffi:,ж;,J};l for сinсhoninе. In thе сasе.Ьf ь.min Бliсф thе washing of thе modifiеd siliсaN,N-dimethylfoгmamidе and follor,vеJ--ьyЪ-.pЁ}"nor' ns Тhе bonding of funсtional .olеfins to аn =SiH group on a siliсa suгfaсe is aссompaniеd li;Тii'fl:*Il'"r}::ч:fl:,::"ri:9 г.nriir, ii'ь" p'Ь".*l]."",o"","o undeг thеiс hydro silyl ati on/sol- sеl'.йы oй pi";;;ffi; il,:Ё,ff :H;::i"."#.#11':; l"ж: Tr=-"1"J- ::: : :':*::::g i:Ёil A speсtrophot omеt гi с mеthod for thеration of =SiH groups in solution unа o" ti" ;й;;.;Ё',;#;;";:*.ilj:ъ,*: ;::'Т"'::i-'fl.li::::jj:::1'^:::т ^lrdroыivlatio" 'Ъйi"".-п ;;;.,,"v to takrEсount thе possible seсondary proсеssеs tйui tut. ptu." Ju,i,щ.;;;й]:ffi:х',;"l?:; з "i:.:,жil,Т;Jj* lil!'|* r, ̂ :*:::':' т"ф"'';ih pъ;;Ё.. u, the typе andof сatalyst, eхpeгimеntal ."onаition' ."с-й. 1J'*; ffi;JflЁ:#""jr,il:j *".'",',*:х:':"l*':::::-'r'T:ь с;:":i lгthe сatыyst, гeagent гatios, thе mostiаt e solvеnt) wеre dеtегminfo :т ф;йJй;Ц1;.":*"f..Ж:.,:;' JhН: l.',j:ffu{,}.}fl1'ffi#";:. *. ьonJ"с. Ьn.tional g.oup,-iь,il, i, ",p*J"пу lеdgemеnt Тhе геsеaгсh dеsсribеd in this publiсation was madе possible in part by gгantl38 of thе U.S. Civilian Rеseaгсh .nс о.u"ьp*еnt Foundation and of the Govеrnmеnt :ж;* Handbook on Hydrosilylation, Еd. by B. Мaгсinieс. - oxfoгd: Pегgamon A.A.' Tегtykh V'A', Khranovskii V.A., Еgorov Yu.P., and Roеv L.M. Study of :""",|j.::n.o::}':.Y}":"'-':i,h^'Т9:i1 9i'г*. by Ii,p"o.o,"fry // Teoret.im. Khimiya. . |966. - v. 2' N 2.'.P' 247-25i. --- -' wуу Il IсoгlI. ]-";f "нj" ":,.i}""'1,'* I^"]l9-r1.:: hydro silylation reaсtions with paгtiсipаtionmоdifiеd siliоa suгfaсе -!! ,'! o::| ̂ .ф*.pti* on N"; ;;.й#'ъъlT"j:;#:Ьсnts'', Еd. by A. Dabrowski and. ̂V.A' теrtyй ; д','i..сu.ц.iuu,i*., Nеw York,brd, Shannon, Toфo: Еlsrvier. - |996..p,tiт-lвg, lljЯ." and Pines A.N. Siliсon оxyhydride // Ind. Eng, Chеm. - |g52. -v. 44, N 2. - doval J.Е. and Pеsеk J,J. Synthеsis and оhaгaсteгization of a hydride modified porous ж1"ffj ":: il j::Т:i{': е in thе p 1.'p T."',::. 9г .ьй."lry ;;; сhromato gгaphi сphases // Алa|. Chеm' . tsвs. . v. сt, ш 18. -P. 2067-2075, r4}UEr.,РIuс ..";3*'::':1l'l*l*:,r',.".ч;1"ьi. l:n9.{.:h9'atogiapьiс phases prеpaгеduф hydгosilation of olefins on a hydride-modified siliсa й;ъБ;^;;i Ыfi::l . - V. 63, N22. - P, 26з4-2641, 85 7' Pesеk J.J.' Sandoval J.Е., Chu D. qnd. Jonsson Е. The synthеsis, сharaсterization and modifiсation oг ьуоije-Jiсa surfaсes // In book ',Chemiсally Мodifiеd oхide Surfaсеs.', Еd.by}I'A.MottolaandJ.R.Steiпmrtz.-Amstеrdam:Еlseviеr'-|992.-P.51.72. 8. Chu C.H., Jonsson Е., Auvinen М., Pеsеk J.J,, and Sandoval J.Е. .A new approaсh for thе preparation oг a йiae-modified substгatе used as an intеrmеdiatе in thе sрthеsis of surfaсe-bondeo matйaЬ t| ̂ na|'Chеm. - |9g3. . v. 65, N 6. . P. 808-816. 9. Pеsek J.J., SandovaГiв., *с Su М.G. Nеw alumina-basеd stationary phases for HPLC. Synthеsis by olеfin ffi;il"l.":^. siliсon hydride modifiеd alumina intегmediate // i. сь'o'utoe.. - ir9g3.. v' 630, N 1-2' - Р. 95-103. l0. Pesеk J.J., МatyйМ.т., soсzеwinski.Е., and ChristеnsеnT. Spесtrosсopiс studies of butylphеnyl, .oono-]t.*о perfluorinated bondеd phases // Clшomatographia. . J994. - v. ig, ш s-ro. . P. 520-52s. 1 .|-.- -:-^^.: 1l. Pesеk J.J. аnd T;; vЬ. 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",..,,oсhromatogгaphy !n с|reчсally modified etсhеd fused siliсa сapillari.. i;:,ё;";";"g'' A. .rщо. - v. zjо, N l.2. .P,255-264 20. Akapo s.o., Di;йu-i.й в., .уraшsкa M.T., and Pesеk J.J. Speсtrosсopiс and сhromatogгapьi"..""ы.iution of сyоliс-,ito*,n" bondеd phasеs for miсгoсolumn gas сlшomatograpшс oеiйnatioц of lЬwe' iyJ'o.''ьons // J. Мiсгoсol. Sеp' . 1996. . v. 8. - ,,";"1,-J;?1land Мatyska М.T. Thе sеparation of tetгaсyсlinеs by high performanсe сallllaгy еleсtrophoге,i, й,.'йiru! ы".t,o.t,,й"i"gopьy / J. сhromatogr. - i996. - v. '7з6. - ,,:;;J,'.o., Dimandja J..M. p., Мatyska М'T., and Pеsek J.J' Improvemеnt of gas сtrromatographi".;;;;;anсе of сyсli9 ;iй;;"; йdеd phasеs by inсorporation of n.alkyl йЪ'pJ l lЬы сь.*. - 1996. .v .6s,N l1 . -P. l954-1959. 86 oг cn е )f rf цid idе ) . nns of iol of ltе пo f Ь l l aпd gas 8 . - .аtе a . - сзlly low- )6. - fused illaгy | з6 ' - rf gas гalkуl 23 Pеsek J.J., Мatyska М.Т., Sandoval J.Е.' and Williamsеn Е. 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Symp' . |996. - v. l08. - P. 55-6l. tmykh V.A' Novel aspeсts of сhеmiсal nrodifiоation of siliсa suгГaсе // In..oгganosiliсon lсmistгy III. From Мoiесules to Materials'] ш.дun., aпd J.Weis (Еds ) - Weinheim, New]сlr' Basеl, Cambгidge, Tokyo: vсн. - ts9в. . P' 670-68l. ].A. and Yanishpolskii V.V' Modified siliсa matгiсеs for immobilization of aсtivеds // In ..Siliсa: fгom Sщthеsis to Appliсation'', Е. Papirеr (Еd.)' - 14u11'ou,". akova L.A. and Varvarin A.М. Chеmisorption of N-vinyl-2-pyпolidonе on hydridеsuгfaсе.// Teorеt. Еkspеrim. Кhimiya. - tg<js. - v' 3 5, тl i. - p , iзв-zзg ,lakova L.A., Varvarin A.М., and Linkov V.М. Intеraсtion of N-vinyl-2-pyпolidone яrгfaсе of hydгidе siliсa // Colloids and Surfaсеs, A. . 2000. . v. 168'i l. -P. 45-52.Bсlyakova L.A. and Varvarin A.М. Inteгaсtion of hydгide siiiсa suггaсе withvinyl-2-pyпolidonе // Ads' Sсi. Tесhn. - 2000. . v. 18, ьt l. . p. 65-74. h v.A. and YanishpolskiiV.V. Adsoгption and сhеmisоrption of еnzymes and othеrmacromolесules on siliсas /| Сhapter l6 in ..Adsorption on siliсas,,, Е. Papirеr (Еd.)' . - 1998. -P.221_224. Yoгk: Мaгcеl Dеkkег. - 20oo. .P. 523-564. . 62 ' N 2 . . P . 5 з9 -544 , чkh V'A, Yanishpolskii v'v., Bеreza L.V., Pеsek J'J., and Мatyska М.Т.оbilization of optiсallу aсtive and сtmplехing olеfins on thе siliсa'.,Ь"" by сombinеd of hydrosilylation rеaсtiоn and sot.gel tесйology // J. Therm. Anal. Cal. - 2000. - егеnko P.N., Ктotov V.V., and Staгoverov S'M' Chromatogгaphiс pгopеrtiеs of thegе]wi|h anсhorеd quininе //Zh.Fiz. Khimii. . 1991. . v. 65, ш io. . i.zвtl-zвtв. B., Glennon J.D.' Тгoltzsсh C., Мenyes U., Pursсh М., and Albеп K' A (.).mеntyl siliсa phasе for сhiral sеparations: synthеsis and solid statе NМR сharacterization llChеm. . |997. - v. 69, N 9' 'Р. |756.1762. lе R., Albeгt K., Haпis S.J., Trёltzsсh C., Hornе Е., and Glennon J.D. Siliсa-bonded еn91in сhromatographу l/I' Chromatogт. A. . 1996. - v. 7зl, N l.2. .P.41.46.'еv V.P. and Salimgaгeeva r.М., Reасtions of olefins Hydrosilylation. - Мosсow: э, - |982 (in Russian). 89 75.onopсhеnkoA.andSabourinЕ.T.Tеtraalkylsilanеsynthetiсfluids//UsAPatеnt4578491 '..Y;#Jn'n1l!].*' сompleх сatalуst foг hydrosilation reaсtion // UsA Patеnt 452955з ,,..l*Чl,,',.i1i,:'Ь" thе mесhanism of. mеtal сolloid сatalyzеd hydrosilylation: proposed exnlanations гo, "r""i.oш" ur""t, *d "-;;;;;;ia!sЬ 7 J. Am. Chem. Soс. . 1990. . ,,**?'*ll;li3ii;6il1ьtьu.*otдyi:u,ltu':.;Yч'Ь"ъ;*l1**ationasthе essential stеp // J' й. ы;':Soс. - 1986. - v. to-в, N 23. - P.1228-72з|. 79. Praсtiсal сuiсe on.йJysЬ of MonoT"'i; ;; pory'ы" organosiliсon Compounds, Еd. by д.p. ктesr^кou. lйo'.o*: Goskhimizd al. . |962 (in Russian)' 80. Suhшa т., к..tsun,a r';.i;й ", -1 f;;g";ht й.. м99цi"it.n of siliсa gel ulith diethy'amino u."oТi'i#;;",й ""a ьli'"i"й*ization // Colloid Polym. Sсi. - t993. *'.,,u";,ik\?'" 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spelling oai:ojs.pkp.sfu.ca:article-492018-11-27T09:42:39Z Hydrosilylation reactions in synthesis of surface chemical compounds Hydrosilylation reactions in synthesis of surface chemical compounds Hydrosilylation reactions in synthesis of surface chemical compounds Tertykh, V. A. Yanishpolskii, V. V. Bereza-Kindzerska, L. V. Pesek, J. J. Matyska, M. T. With the combined use of a catalytic hydrosilylation reaction and sol-gel formation, immobilization of a number of unsaturated organic compounds (quinine, quinidine, cinchonine, cinchonidine, alprenolol, N-allylrhodanine, and hemin) was carried out on a silica surface. The structure of the compounds formed and the nature of their bonding with the surface were studied by DRIFT and NMR. spectroscopy. The concentrations of the olefins anchored to the surface layer of the silica matrix were estimated by a UV-spectroscopy method. A spectrophotometric method for the determination of =SiH group concentrations in solutions and on surfaces was developed. The method is based on the reduction of ammonium molybdate by silicon hydride groups and measuring the specific absorption at λ=710 nm of the blue solution of silicomolybdenum heteropolycomplex formed. The method allows for the determination microgram quantities of =SiH groups with a reasonable accuracy. Kinetic peculiarities of the hydrosilylation reaction between cinchonine and triethoxysilane in the presence of Speier’s catalyst have been studied in toluene and isopropyl alcohol by use of a spectrophotometric method. It was shown that the hydrosilylation reaction of functional olefin is complicated by transformation of the catalytic system and secondary processes occurring in the solvent medium, in particular the hydrolysis of =SiH groups. With the combined use of a catalytic hydrosilylation reaction and sol-gel formation, immobilization of a number of unsaturated organic compounds (quinine, quinidine, cinchonine, cinchonidine, alprenolol, N-allylrhodanine, and hemin) was carried out on a silica surface. The structure of the compounds formed and the nature of their bonding with the surface were studied by DRIFT and NMR. spectroscopy. The concentrations of the olefins anchored to the surface layer of the silica matrix were estimated by a UV-spectroscopy method. A spectrophotometric method for the determination of =SiH group concentrations in solutions and on surfaces was developed. The method is based on the reduction of ammonium molybdate by silicon hydride groups and measuring the specific absorption at λ=710 nm of the blue solution of silicomolybdenum heteropolycomplex formed. The method allows for the determination microgram quantities of =SiH groups with a reasonable accuracy. Kinetic peculiarities of the hydrosilylation reaction between cinchonine and triethoxysilane in the presence of Speier’s catalyst have been studied in toluene and isopropyl alcohol by use of a spectrophotometric method. It was shown that the hydrosilylation reaction of functional olefin is complicated by transformation of the catalytic system and secondary processes occurring in the solvent medium, in particular the hydrolysis of =SiH groups. With the combined use of a catalytic hydrosilylation reaction and sol-gel formation, immobilization of a number of unsaturated organic compounds (quinine, quinidine, cinchonine, cinchonidine, alprenolol, N-allylrhodanine, and hemin) was carried out on a silica surface. The structure of the compounds formed and the nature of their bonding with the surface were studied by DRIFT and NMR. spectroscopy. The concentrations of the olefins anchored to the surface layer of the silica matrix were estimated by a UV-spectroscopy method. A spectrophotometric method for the determination of =SiH group concentrations in solutions and on surfaces was developed. The method is based on the reduction of ammonium molybdate by silicon hydride groups and measuring the specific absorption at λ=710 nm of the blue solution of silicomolybdenum heteropolycomplex formed. The method allows for the determination microgram quantities of =SiH groups with a reasonable accuracy. Kinetic peculiarities of the hydrosilylation reaction between cinchonine and triethoxysilane in the presence of Speier’s catalyst have been studied in toluene and isopropyl alcohol by use of a spectrophotometric method. It was shown that the hydrosilylation reaction of functional olefin is complicated by transformation of the catalytic system and secondary processes occurring in the solvent medium, in particular the hydrolysis of =SiH groups. Chuiko Institute of Surface Chemistry National Academy of Sciences of Ukraine 2001-06-10 Article Article application/pdf https://surfacezbir.com.ua/index.php/surface/article/view/49 Surface; No. 4-6 (2001): Chemistry, Physics and Technology of Surface; 69-90 Поверхность; № 4-6 (2001): Химия, физика и технология поверхности; 69-90 Поверхня; № 4-6 (2001): Хімія, фізика та технологія поверхні; 69-90 3154-8091 3154-8083 en https://surfacezbir.com.ua/index.php/surface/article/view/49/48 Авторське право (c) 2001 V.A. Tertykh, V.V. Yanishpolskii, L.V. Bereza-Kindzerska, J.J. Pesek, and M.T. Matyska
spellingShingle Tertykh, V. A.
Yanishpolskii, V. V.
Bereza-Kindzerska, L. V.
Pesek, J. J.
Matyska, M. T.
Hydrosilylation reactions in synthesis of surface chemical compounds
title Hydrosilylation reactions in synthesis of surface chemical compounds
title_alt Hydrosilylation reactions in synthesis of surface chemical compounds
Hydrosilylation reactions in synthesis of surface chemical compounds
title_full Hydrosilylation reactions in synthesis of surface chemical compounds
title_fullStr Hydrosilylation reactions in synthesis of surface chemical compounds
title_full_unstemmed Hydrosilylation reactions in synthesis of surface chemical compounds
title_short Hydrosilylation reactions in synthesis of surface chemical compounds
title_sort hydrosilylation reactions in synthesis of surface chemical compounds
url https://surfacezbir.com.ua/index.php/surface/article/view/49
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AT berezakindzerskalv hydrosilylationreactionsinsynthesisofsurfacechemicalcompounds
AT pesekjj hydrosilylationreactionsinsynthesisofsurfacechemicalcompounds
AT matyskamt hydrosilylationreactionsinsynthesisofsurfacechemicalcompounds