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Adsorption properties of porous Langmuir-Blodgett layer used in SAW sensor for vapors of some chlorinated hydrocarbons

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The porous Langmuir-Blodgett film has been fabricated from an equimolar mixture of 5-[[1,3-dioxo-3- [4- (1-oxooctadecyl) phenyl] propyl] amino] - 1,3 - benzenedicarboxylic acid (DA) with cetylamine (CA) and subsequently removing of cetylamine after a layer deposition. This film has been investigated as the sensing layer of the surface acoustic waves (SAW) sensor of vapors of some chlorinated hydrocarbons in air. From the experimental results the values of the number of adsorbed molecules of chlorinated hydrocarbons per surface of sensing layer, NM/A, for this porous Langmuir-Blodgett layer has been calculated. An attempt to explain the observed differences in the adsorption of chlorinated hydrocarbons has been undertaken.
Rocznik
Strony
345--352
Opis fizyczny
Bibliogr 21 poz., rys., tab.
Twórcy
autor
  • Institute of Fundamental Technological Research, Polish Academy of Sciences, Pawińskiego 5B, 02-106 Warszawa, Poland, abalcerz@ippt.gov.pl
Bibliografia
  • [1] Ballantine D.S, White R.M., Martin S.I., Ricco A.J., Zellers E.T., Frye G.C., Wohltjen H., Acoustic wave sensors, Academic Press, San Diego 1997.
  • [2] Matsuguchi M., Uno T., Molecular imprinting strategy for solvents molecules and its application for QCM-based VOC vapour sensing, Sens. Actuators B, 113, 94–99 (2006).
  • [3] Penza M., Cassano G., Aversa P., Antolini F., Cusano A., Consales M., Giordano M., Nicolais L., Carbon nanotubes-coated multitransducing sensors for VOC’s detection, Sens. Actuators B, 111–112, 171–180 (2005).
  • [4] Ichinohe S., Tanaka H., Kanno Y., Gas sensing by AT-cut quartz crystal oscillator coated with mixed lipid film, Sens. Actuators B, 123, 306–312 (2007).
  • [5] Winterbottom D.A., Narayanaswamy R., Raimundo I.M., Cholesteric liquid crystals for detection of organic vapours, Sens. Actuators B, 90, 52–57 (2003).
  • [6] Basova T., Kol’tsov E., Ray A.K., Hassan A.K., Gürek A.G., Ahsen V., Liquid crystalline phtalocyanine spun films for organic vapour sensing, Sens. Actuators B, 113, 127–134 (2006).
  • [7] Macagnano A., Sgreccia E., Paolese R., de Cesare F., d’Amico A., di Natale C., Sorption and condensation phenomena of volatile compounds on solid-state metalloporphyrin films, Sens. Actuators B, 124, 260–268 (2007).
  • [8] Culha M., Lavrik N.V., Schell F.M., Tipple C.A., Sepaniak M.J., Characterization of volatile, hydrophobic cyclodextrins derivatives as thin film for sensing applications, Sens. Actuators B, 92, 171–180 (2003).
  • [9] Lieberzeit P.A., Greibl W., Stathopulos H., Dickert F.L., Fischerauer G., Bulst W.-E., Covalently anchored supramolecular monolayers on quartz surfaces for use in SAW sensors, Sens. Actuators B, 113, 677–683 (2006).
  • [10] Dickert F.L., Reif M., Sikorski R., Chemical sensors for solvent vapours; enthalpic and entropic contributions to host-guest interactions, J. Mol.Model, 6, 446–451 (2000).
  • [11] Mikhailov A.I., Glukhovskoi E.G., A procedure for studying the sorption of ethanol vapor on a monomolecular Langmuir–Blodgett arachic acid film, Russ. J. Phys. Chem. A, 82, 1234–1238 (2008).
  • [12] Ohnuki H., Saiki T.,Kusakari A, Ichihara M., Izumi M., Immobilization of glucose oxidase in Langmuir–Blodgett films containing Prussian blue nano-clusters, Thin Solid Films, 516, 8860–8864 (2008).
  • [13] Ying Z.H., Jiang Y.D., Du X.S. Xie G., Yang Y., A study of PVDF Langmuir–Blodgett thin film using quartz microbalance, J. Appl. Polym. Sci., 106, 1024–1027 (2007).
  • [14] Capan R., Acikbas Y., Evyapan M., A study of Langmuir–Blodgett thin film for organic vapor detection, Mater. Lett., 61, 417–420 (2007).
  • [15] Balcerzak A., Zhavnerko G., Ultrasonic chemical sensor for detection of aliphatic and aromatic hydrocarbons in air, Arch. Acoust., 32, 53–58 (Supplement) (2007).
  • [16] Balcerzak A., Rejmund F., Gutkiewicz P., Zienkiewicz B., Zhavnerko G., Ultrasonic chemical sensor with organic monomolecular layer, Arch. Acoust., 31, 47–52 (Supplement) (2006).
  • [17] Jakubik W., Urbanczyk M., Maciak E., Metal-free phthalocyanine and palladium sensor structure with a polyethylene membrane for hydrogen detection in SAW systems, Sens. Actuators B, 127, 295–303 (2007).
  • [18] Urbanczyk M., Jakubik W., Optimal conditions for the generation system of a SAW gas sensor, Arch. Acoust., 21, 85–88 (1996).
  • [19] von Schickfus M., Stanze R., Kammereck T., Weiskat D., Dittrich W., Improving the SAW gas sensor: device, electronics and sensor layer, Sens. Actuators B, 18/19, 443–447 (1994).
  • [20] Zhavnerko G.K., Agabekov V.E., Yaminsky I.V., Formation of Langmuir monolayers for AFM studies by the “horizontal precipitation” method, Phys., Chem. Appl. Nanostruct., Rev. Short Notes Nanomeeting ’99 (1999), pp. 218–220, Borisenko V.E. [Ed.], Publisher: World Scientific, Singapore.
  • [21] Zhavnerko G.K., Filipov V.V., Severin F.M., Kuchuk T.A., Agabekov V.E., Formation and features of skeletonized structures in two-component Langmuir–Blodgett films, J. Coll. Interface Sci., 193, 1–7 (1997).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT8-0014-0049
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