УДК: 
544.7

ПРИМЕНЕНИЕ ПОКРЫТИЙ, СФОРМИРОВАННЫХ МЕТОДОМ ПОЛИИОННОЙ СБОРКИ, В ЭЛЕКТРОНИКЕ

Аннотация

Работа представляет собой обзор результатов исследований наноструктурированных тонких пленок, сформированных методом полиионной сборки. Данная технология позволяет получить композитные покрытия и наноматериалы с заданными свойствами, что открывает возможность их использования в качестве важных составляющих высокоинтегрированных устройств в различных областях науки и техники. 

The work is a review of research in the area of nanostructured thin films formed by Layer-by-Layer self-assembly. This technology allows obtaining the composite coatings and nanomaterials with determined properties. Such structures act as important components of highly integrated devices in various fields of science and technology. 

Литература

1. Iler R. K. Multilayers of colloidal particles // J. Colloid Interface Sci. 1966. Vol. 21. P. 569–594.

2. Decher G., Hong J. D., Schmitt J. Buildup of ultrathin multilayer fi lms by a self-assembly process : III. Consecutively alternating adsorption of anionic and cationic polyelectrolytes on charged surfaces // Thin Solid Films. 1992. Vol. 210–211, part 2. P. 831–835.

3. Lee J. -S., Cho J., Lee C., Kim I., Park J., Kim Y. -M., Shin H., Lee J., Caruso F. Layer-by-layer assembled char ge-trap memory devices with adjustable electronic properties // Nature nanotechnology. 2007. Vol. 2. Р. 790–795.

4. Paterno L. G., Soler M. A. G., Fonseca F. J., Sinnecker J. P., Sinnecker E. H.C.P., Lima E.C.D., Ba'o S. N., Novak M. A., Morais P. C. Layer-by-Layer Assembly of Bifunctional Nanofi lms : Surface-Functionalized Maghemite Hosted in Polyaniline // J. Phys. Chem. C. 2009. Vol. 113. P. 5087–5095.

5. Liu Y., Wang A., Claus R. O. Layer-by-layer electrostatic self-assembly of nanoscale Fe3O4 particles and polyimide precursor on silicon and silica surfaces // Appl. Phys. Lett. 1997. Vol. 71, № 16. Р. 2265–2267.

6. Kim Y. H., Park J., Yoo P. J., Hammond P. T. Selective Assembly of Colloidal Particles on a Nanostructured Template Coated with Polyelectrolyte Multilayers // Adv. Mater. 2007. Vol. 19. Р. 4426–4430.

7. Palumbo M., Lee K. U., Ahn B. T. Electrical investigations of layer-by-layer fi lms of carbon nanotubes // J. Phys. D : Appl. Phys. 2006. Vol. 39. P. 3077–3085.

8. Decher G. Fuzzy Nanoassemblies : Toward Layered Polymeric Multicomposite // Science. 1997. Vol. 277. P. 1232–1237.

9. Khomutov G. B. Biomimetic Nanosystems and Novel Composite Nanobiomaterials // Biofi zika. 2011. Vol. 56, № 5. Р. 881–898.

10. Ariga K., Hill J. P., Ji Q. Layer-by-layer assembly as a versatile bottom-up nanofabrication technique for exploratory research and realistic application // Phys. Chem. Chem. Phys. 2007. Vol. 9. P. 2319–2340.

11. Pauly M., Pichon B. P., Albouy P.-A., Fleutot S., Leuvrey C., Trassin M., Gallani J.-L., Bégin-Colin S. Monolayer and multilayer assemblies of spherically and cubic-shaped iron oxide nanoparticles // J. Mater. Chem. 2011. Vol. 21. Р. 16018–16027.

12. Zhu J., Hsu C. M., Yu Z., Fan S., Cui Y. Nanodome Solar Cells with Effi cient Light Management and SelfCleaning // Nano Letters. 2010. Vol. 6, № 9. P. 1979–1984.

13. Tao A. R., Huang J., Yang P. Langmuir-Blodgettry of Nanocrystals and Nanowires // Acc. Chem. Res. 2008. Vol. 41, № 12. Р. 1662–1673.

14. Lvov Y., Essler F., Decher G. Combination of Polycation/ Polyanion Self-Assembly and Langmuir-Blodgett Transfer for the Construction of Superlattice Films // J. Phys. Chem. 1993. Vol. 97. P. 13773–13777.

15. Ko D. H., Tumbleston J. R., Zhang L., Williams S., DeSimone J. M., Lopez R., Samulski E. T. Photonic Crystal Geometry for Organic Solar Cells // Nano Letters. 2009. Vol. 9, № 7. Р. 2742–2746.

16. Kim J. Y., Lee K., Coates N. E., Moses D, Nguyen T. Q., Dante M., Heeger A. J. Effi cient Tandem Polymer Solar Cells Fabricated by All-Solution Processing // Science. 2007. Vol. 317. Р. 222–225.

17. Tokuhisa H., Hammond P. T. Splid-State Photovoltaic Thin Films using TiO2, Organic Dyes, and Layer-by-Layer Polyelectrolyte Nanocomposites // Adv. Funct. Mater. 2003. Vol. 13, № 11. Р. 831–839.

18. Taranekar P., Qiao Q., Jiang H., Ghiviriga I., Schanze K. S., Reynolds J. R. Hyperbranched Conjugated Polyelectrolyte Bilayers for Solar-Cell Applications // J. Amer. Chem. Soc. 2007. Vol. 129. Р. 8958–8959.

19. Mwaura J. K., Pinto M. R., Witker D., Ananthakrishnan N., Schanze K. S., Reynolds J. R. Photovoltaic Cells Based on Sequentially Adsorbed Multilayers of Conjugated Poly(p-phenylene ethynylene)s and a Water-Soluble Fullerene Derivative // Langmuir. 2005. Vol. 21, № 22. Р. 10119–10126.

20. Man K. Y. K., Wong H. L., Chan W. K., Kwong C. Y., Djurišić A. B. Use of a Ruthenium-Containing Conjugated Polymer as a Photosensitizer in Photovoltaic Devices Fabricated by a Layer-by-Layer Deposition Process // Langmuir. 2006. Vol. 22, № 7. Р. 3368–3375.

21. Chan W. K., Man K. Y. K., Cheng K. W., Wong H. L., Djurisic A. B. Fabrication of Organic Photovoltaic Devices by the Layer-by-Layer Polyelectrolyte Deposition Method // Optoelectronic and Microelectronic Materials and Devices, 2004. P. 221–224.

22. Paul G. K., Bhaumika A., Patra A. S., Bera S. K. Enhanced photo-electric response of ZnO/polyaniline layer-by-layer self-assembled fi lms // Materials Chemistry and Physics. 2007. Vol. 106. P. 360–363.

23. Koeppe R., Sariciftci N. S., Troshin P. A. Complexation of pyrrolidinofullerenes and zinc-phthalocyanine in a bilayer organic solar cell structure // Appl. Phys. Lett. 2005. Vol. 87. P. 244102.

24. Terao Y., Sasabe H., Adach C. Correlation of hole mobility, exciton diffusion length and solar cell characteristics in phthalocyanine/fullerene organic solar cells // Appl. Phys. Lett. 2007. Vol. 90. P. 103515.

25. Huisman C. L., Goossens A., Schoonman J. Photodoping of Zinc Phthalocyanine : Formation, Mobility, and Infl uence of Oxygen Radicals in Phthalocyanine-Based Solar Cells // J. Phys. Chem. B. 2002. Vol. 106. P. 10578–10584.

26. Brutting W., Bronner M., Gotzenbrugger M. Ambipolar Blends of Cu-Phthalocyanine and Fullerene: Charge Carrier Mobility, Electronic Structure and their Implications for Solar Cell Applications // Macromol. Symp. 2008. Vol. 268. P. 38–42.

27. Egginger М. Zn-Phthalocyanine / C60 Solar Cells : Diplomarbeit zur Erlangung des akademischen Grades. Linz, 2005. 76 р.

28. Johnev B. Chemical engineering of the electronic properties of ITO-organics interface in Phthalocyanine / C60-Fullerene organic solar cells : Inaugural-Dissertation to obtain the academic degree Doctor rerum naturalium (Dr. rer. nat.) submitted to the Department of Biology, Chemistry and Pharmacy of Freie Universität Berlin. 2005. 124 p.

29. Loi M. A., Denk P., Hoppe H. Long-lived photoinduced charge separation for solar cell applications in phthalocyanine-fulleropyrrolidine dyad thin fi lms // J. Mater. Chem. 2003. Vol. 13. P. 700–704.

30. Zhang X., Yan G., Ding H., Shan Y. Fabrication and photovoltaic properties of self-assembled sulfonated polyaniline/TiO2 nanocomposite ultrathin fi lms // Materials Chemistry and Physics. 2007. Vol. 102. P. 249–254.

31. Li G., Zhu R., Yang Y. Polymer solar cells // Nature photonics. 2012. Vol. 6. Р. 153–161.

32. Kim H. S., Sohn B. H., Lee W., Lee J. -K., Choi S. J., Kwon S. J. Multifunctional layer-by-layer self-assembly of conducting polymers and magnetic nanoparticles // Thin Solid Films. 2002. Vol. 419. P. 173–177.

33. Zhang Q., Saraf L.V., Hua F. Transparent thin-fi lm transistor with self-assembled nanocrystals // Nanotechnology. 2007. Vol. 18. P. 195204.

34. Alessio P., Rodrıguez-Mendez M. L., De Saja Saez J. A. Iron phthalocyanine in non-aqueous medium forming layer-by-layer fi lms : growth mechanism, molecular architecture and applications // Phys. Chem. Chem. Phys. 2010. Vol. 12. Р. 3972–3983.

35. Regan W., Byrnes S., Gannett W., Ergen O., VazquezMena O., Wang F., Zettl A. Screening-Engineered Field-Effect Solar Cells // Nano Lett. 2012. Vol. 12. P. 4300−4304.

36. Lange U., Roznyatovskaya N. V., Mirsky V. M. Conducting polymers in chemical sensors and arrays // Аnalytica chimica acta. 2008. Vol. 614. P. 1–26.

37. Daga V. K., Schwartz E. L., Chandler C. M. Photoinduced Ordering of Block Copolymers // Nano Lett. 2011. Vol. 11. P. 1153–1160.

38. Akgo Y., Hofmann C., Karatas Y., Cramer C., Wiemhöfer H.-D., Schönhoff M. Conductivity Spectra of Polyphosphazene-Based Polyelectrolyte Multilayers // J. Phys. Chem. B. 2007. Vol. 111. P. 8532–8539.

39. Imre Á. W., Schönhoff M., Cramer C. A conductivity study and calorimetric analysis of dried poly(sodium 4-styrene sulfonat)/poly(diallyldimethylammonium chloride) polyelectrolyte complexes // J. Chem. Phys. 2008. Vol. 128. P. 134905.

40. Masuda K., Abe T., Benten H. Fabrication and Conductive Properties of Multilayered Ultrathin Films Designed by Layer-by-Layer Assembly of Water-Soluble Fullerenes // Langmuir. 2010. Vol. 26, № 16. Р. 13472–1348. 

41. Crespilho F. N., Zucolotto V., Siqueira J. R., Carvalho A. J. F., Nart F. C., Oliveira Jr. O. N. Using Electrochemical Data to Obtain Energy Diagrams for Layer-By-Layer Films from Metallic Phthalocyanines // Intern. J. Electrochem. Sci. 2006. Vol. 1. Р. 151–159.

42. Li L. S., Li A. D. Q. Structure and electronic properties of self-assembled macrocycle and polymer multilayers // Thim Films : Preparation, Characterization, Applications. Springer, 2002. Р. 231–244.

43. Dey S., Pal A. J. Layer-by-Layer Electrostatic-Assembly : Magnetic-Field Assisted Ordering of Organic Molecules // Langmuir. 2010. Vol. 26, № 22. Р. 17139–17142.

44. Yang Y., Yang X., Liu Y. -L., Liu Z.-M., Yang H.-F., Shen G.-L., Yu R.-Q. Optical sensor for lithocholic acid based on multilayered assemblies from polyelectrolyte and cyclodextrin // J. Photochem. and Photobiol. A : Chemistry. 2005. Vol. 171. P. 137–144.

45. Shi G., Qu Y., Zhai Y., Liu Y., Sun Z., Yang J., Jin L. {MSU/PDDA}n LBL assembled modifi ed sensor for electrochemical detection of ultratrace explosive nitroaromatic compounds // Electrochem. Comm. 2007. Vol. 9. P. 1719–1724.

46. Zhang L., Zhai Y., Gao N., Wen D., Dong S. Sensing H2O2 with layer-by-layer assembled Fe3O4–PDDA nanocomposite film // Electrochem. Comm. 2008. Vol. 10. P. 1524–1526.

47. Nohria R., Khillan R. K., Su Y., Dikshit R., Lvov Y., Varahramyan K. Humidity sensor based on ultrathin polyaniline fi lm deposited using layer-by-layer nanoassembly // Sensors and Actuators B. 2006. Vol. 114. P. 218–222.

48. Bai H., Shi G. Gas Sensors Based on Conducting Polymers // Sensors. 2007. Vol. 7. P. 267–307.

49. Kim J. H., Kim S. H., Shiratori S. Fabrication of nanoporous and hetero structure thin fi lm via a layer-by-layer self assembly method for a gas sensor // Sensors and Actuators B. 2004. Vol. 102. P. 241–247.

50. Zucolotto V., Ferreira M., Cordeiro M.R., Constantino C. J. L., Moreira W. C., Oliveira Jr. O. N. Nanoscale processing of polyaniline and phthalocyanines for sensing applications // Sensors and Actuators B. 2006. Vol. 113, № 2. P. 809–815.

51. Cassagneau T., Mallouk T. E., Fendler J. H. Layerby-Layer Assembly of Thin Film Zener Diodes from Conducting Polymers and CdSe Nanoparticles // J. Amer. Chem. Soc. 1998. Vol. 120, № 31. Р. 7848– 7859.

52. Stricker J. T., Gudmundsdottir A. D., Smith A. P., Taylor B. E., Durstock M. F. Fabrication of Organic Thin-Film Transistors Using Layer-by-Layer Assembly // J. Phys. Chem. B. 2007. Vol. 111. P. 6322–6326.

53. Cayre O. J., Chang S. T., Velev O. D. Polyelectrolyte Diode: Nonlinear Current Response of a Junction between Aqueous Ionic Gels // J. Amer. Chem. Soc. 2007. Vol. 129. P. 10801–10806.

54. Neff P. A., Wunderlich B. K., Klitzing R., Bausch A. R. Formation and Dielectric Properties of Polyelectrolyte Multilayers Studied by a Silicon-on-Insulator Based Thin Film Resistor // Langmuir. 2007. Vol. 23. P. 4048–4052.

55. Cassagneau T., Fendler J. H. High Density Rechargeable Lithium-Ion Batteries Self-Assembled from Graphite Oxide Nanoplatelets and Polyelectrolytes // Adv. Mater. 1998. Vol. 10, №11. Р. 877–881.

56. Peng1 C. Q., Thio Y. S., Gerhardt R. A. et al. Conductive paper fabricated by layer-by-layer assembly of polyelectrolytes and ITO nanoparticles // Nanotechnology. 2008. Vol. 19. P. 505603.

57. Agarwal1 M., Qi Xing, Shim B. S., Kotov N., Varahramyan K., Lvov Y. Conductive paper from lignocellulose wood microfi bers coated with a nanocomposite of carbon nanotubes and conductive polymers // Nanotechnology. 2009. Vol. 20. P. 215602.

58. Евтушенко Е. Г., Курочкин И. Н., Донцова Е. А., Будашов И. А., Еременко А. В., Головаченко В. А., Полынцев Д. Г., Тур Д. Р., Пергушов Д. В., Папков В. С., Зезин А. Б., Варфоломеев С. Д. Наноразмерные пленки антител на основе полиэлектролитов для целей высокочувствительной иммунодиагностики // Российские нанотехнологии. 2007. Т. 2, № 1–2. С. 145–153.

59. Tristan F., Palestino G., Menchaca J.-L., Pérez E., Atmani H., Cuisinier F., Ladam G. Tunable ProteinResistance of Polycation-Terminated Polyelectrolyte Multilayers // Biomacromolecules. 2009. Vol. 10, P. 2275–2283.

60. Lichter J. A., Rubner M. F. Polyelectrolyte multilayers with intrinsic antimicrobial functionality : the importance of mobile polycations // Langmuir. 2009. Vol. 25. Р. 7686–94.

61. Kommireddy D. S., Patel A. A., Shutava T. G., Mills D. K., Lvov Y. M. Layer-by-Layer Assembly of TiO2 Nanoparticles for Stable Hydrophilic Biocompatible Coatings // J. Nanosci. Nanotech. 2005. Vol. 5, № 7. P. 1081–1087.

62. Zhang L., Li Y., Sun J., Shen J. Layer-by-layer fabrication of broad-band superhydrophobic antirefl ection coatings in near-infrared region // J. Colloid Interface Sci. 2008. Vol. 319. P. 302–308.

63. Liu X., He J. Superhydrophilic and Antirefl ective Properties of Silica Nanoparticle Coatings Fabricated via Layer-by-Layer Assembly and Postcalcination // J. Phys. Chem. C. 2009. Vol. 113. P. 148–152.

64. Wu Z., Walish J., Nolte A., Zhai L., Cohen R. E., Rubner M. F. Deformable Antirefl ection Coatings from Polymer and Nanoparticle Multilayers // Adv. Mater. 2006. Vol. 18. P. 2699–2702.

65. Cassagneau T. P., Fendler J. H. Electron transfer and charge storage in ultrathin fi lms layer-by-layer selfassembled from polyelectrolytes, nanoparticles and nanoplatelets // Electrochemistry of Nanomaterials / ed. G. Hodes. Weinheim : Wiley-VCH, 2001. Chap. 9. P. 247–286.

66. Kim T. Y., Lee H. W., Stoller M., Dreyer D.R., Bielawski C. W., Ruoff R. S., Suh K. S. High-Performance Supercapacitors Based on Poly(ionic liquid)-Modifi ed Graphene Electrodes // ACS Nano. 2011. Vol. 5. P. 436.

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