Study of the acid Base interaction in the sulfuric acid-ethyl acetate system by multiple internal reflection IR spectroscopy
Rudnitskaya, A.A.; Maiorov, V.D.; Librovich, N.B.; Yu. Ya. Fialkov
Russian Chemical Bulletin 30(11): 2047-2051
1981
ISSN/ISBN: 1066-5285
DOI: 10.1007/bf01094626
Accession: 061643744
PDF emailed within 0-6 h: $19.90
Related References
Bermudez, V.M. 2013: Investigation of the interaction of γ-Al2O3 with aqueous solutions of dimethyl methylphosphonate using infrared multiple internal reflection spectroscopy Langmuir: the Acs Journal of Surfaces and Colloids 29(5): 1483-1489Vedenyapina, N.S.; Ivanov, V.V.; Enikolopyan, N.S. 1973: Transesterification of ethyl acetate and butyl butyrate in the presence of sulfuric acid Russian Chemical Bulletin 22(7): 1483-1485
Jinyan, Z.H.A.N.G.; Leping, D.A.N.G.; Hongyuan, W.E.I. 2010: Solubility of 5-(Dithiolan-3-yl)pentanoic Acid in the Mixed Solvents of Cyclohexane + Ethyl Acetate, Heptane + Ethyl Acetate, and Hexane + Ethyl Acetate Journal of Chemical and Engineering Data 55(9): 4025-4028
Harrick, N.J. 1966: Vertical double-pass multiple reflection element for internal reflection spectroscopy Applied Optics 5(1): 1-3
Nishimura, K.; Ohnishi, R.; Kunimatsu, K.; Enyo, M. 1989: Surface species produced on Pt electrodes during HCHO oxidation in sulfuric acid solution as studied by infrared reflection-absorption spectroscopy (IRRAS) and differential electrochemical mass spectroscopy (DEMS) Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 258(1): 219-225
Hoshi, N.; Kuroda, M.; Ogawa, T.; Koga, O.; Hori, Y. 2004: Infrared reflection absorption spectroscopy of the sulfuric acid anion adsorbed on Pd(S)-[n(111) x (111)] electrodes Langmuir: the Acs Journal of Surfaces and Colloids 20(12): 5066-5070
Timonen, R.S.; Leu, M.-T. 2006: Interaction of ethyl alcohol vapor with sulfuric acid solutions Journal of Physical Chemistry. a 110(21): 6660-6666
Fujii, T.; Ohba, M.; Tsuchida, M.; Saito, K.; Hirano, Y.; Sakaguchi, J. 1986: Lactams xxvi. regioselectivity in the mercuric acetate edetic acid oxidation of the ethyl 1 2 aryl 2 hydroxyethyl 3 ethyl 4 piperidine acetate system enhancement by a benzyloxy group in the aryl moiety and by the 3 4 cis configuration Chemical and Pharmaceutical Bulletin 34(2): 496-507
Trettenhahn, G.L.J.; Nauer, G.E.; Neckel, A. 1996: In situ external reflection absorption FTIR spectroscopy on lead electrodes in sulfuric acid Electrochimica Acta 41(9): 1435-1441
Witte, D.L.; Bienhoff, R.L.; Routh, J.I. 1973: Direct determination of serum cholesterol with ferric per chlorate sulfuric acid ethyl acetate reagent comparison with the technicon sma and n 24a methods Clinical Chemistry 19(6): 669
Kunimatsu, K.; Samant, M.G.; Seki, H.; Philpott, M.R. 1988: A study of HSO4- and SO42- CO-adsorption on a platinum electrode in sulfuric acid by in-situ FT-IR reflection absorption spectroscopy Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 243(1): 203-208
Aastrup, T.; Persson, D.; Wallinder, I.O.; Leygraf, C. 1998: In situ infrared reflection absorption spectroscopy studies of sulfuric acid formation on platinum and palladium surfaces Journal of the Electrochemical Society 145(2): 487-492
Fidi, N. 1995: Effect of acetic acid and n-butanol on the separation of ethyl acetate-ethyl alcohol binary azeotropic system Chemical and Biochemical Engineering Quarterly 9(3): 151-154
Reiche, M.; Hopfe, S.; Gosele, U.; Strutzberg, H.; Tong, Q.Y. 1996: Characterization of interfaces of directly bonded silicon wafers : A comparative study of secondary ion mass spectroscopy multiple internal reflection spectroscopy, and transmission electron microscopy Japanese Journal of Applied Physics 35(4A): 2102-2107
Parker, F.S.; D'agostino M. 1976: Examination of eye tissues by multiple internal reflection ir spectroscopy Canadian Journal of Spectroscopy 21(4): 111-115