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Usp. Khim., 2011, Volume 80, Issue 5, Pages 477–497 (Mi rcr56)  

This article is cited in 18 scientific papers (total in 18 papers)

Formation of ordered nanoparticle assemblies by block copolymer lithography methods

V. V. Terekhin, O. V. Dement'eva, V. M. Rudoy

Institute of Physical Chemistry and Electro Chemistry, Russian Academy of Sciences, Moscow

Abstract: The results of experimental studies devoted to the formation of highly ordered nanoparticle assemblies on planar substrates of various nature using block copolymer lithography methods are presented. The structure and properties of such assemblies and the design of thin-film polymer–metal composites based thereon are discussed. The attention is focused on the assemblies obtained by nanoparticle synthesis in the micelles of amphiphilic diblock copolymers.

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Russian Chemical Reviews, 2011, 80:5, 453–472

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Document Type: Article
Received: 02.09.2010

Citation: V. V. Terekhin, O. V. Dement'eva, V. M. Rudoy, “Formation of ordered nanoparticle assemblies by block copolymer lithography methods”, Usp. Khim., 80:5 (2011), 477–497; Russian Chem. Reviews, 80:5 (2011), 453–472

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    This publication is cited in the following articles:
    1. V. V. Terekhin, O. V. Dement'eva, V. M. Rudoy, “ChemInform Abstract: Formation of Ordered Nanoparticles Assemblies by Block Copolymer Lithography Methods”, ChemInform, 42:48 (2011), no  crossref
    2. Terekhin V.V., Dement'eva O.V., Rudoy V.M., “Diblock Copolymer Micellar Lithography: 2. Formation of Highly Ordered Nanoparticle Ensembles with Controlled Geometric Characteristics”, Colloid J., 73:5 (2011), 707–716  crossref  isi  elib  scopus
    3. Himadri Acharya, Jinwoo Sung, Insung Bae, TaeHee Kim, Dong Ha Kim, Cheolmin Park, “Coassembly of Metal and Titanium Dioxide Nanocrystals Directed by Monolayered Block Copolymer Inverse Micelles for Enhanced Photocatalytic Performance”, Chem. Eur. J, 2012, n/a  crossref  isi  scopus
    4. Park E.J., Wagenaar T., Zhang S., Link A.J., Prud'homme R.K., Koberstein J.T., Turro N.J., “Using Light to Covalently Immobilize and Pattern Nanoparticles Onto Surfaces”, Langmuir, 28:29 (2012), 10934–10941  crossref  mathscinet  isi  elib  scopus
    5. V. V. Terekhin, A. V. Zaitseva, O. V. Dement’eva, V. M. Rudoy, “Macroscopic deformation of a substrate as a new method for controlling geometry and plasmon-resonant properties of highly ordered planar ensembles of metal nanoparticles”, Colloid J, 75:4 (2013), 437  crossref  isi  elib  scopus
    6. S. V. Karpov, I. L. Rasskazov, “Simulation of conditions for fabrication of optical nanowaveguides in the form of chains of spherical metal nanoparticles by electrostatic functionalization of the process substrate”, Colloid J, 75:3 (2013), 279  crossref  isi  elib  scopus
    7. Florian Kretschmer, Stefan Mühlig, Stephanie Hoeppener, Andreas Winter, M.D.. Hager, “Survey of Plasmonic Nanoparticles: From Synthesis to Application”, Part. Part. Syst. Charact, 2014, n/a  crossref  mathscinet  isi  scopus
    8. Chang T., Huang H., He T., “Directed Self-Assembly of Diblock Copolymer Thin Films on Prepatterned Metal Nanoarrays”, Macromol. Rapid Commun., 37:2 (2016), 161–167  crossref  isi  scopus
    9. Krylov P.N., Zakirova R.M., Kobziev V.F., Kostenkov N.V., Fedotova I.V., Khamidullin R.R., Dedyukhin A.A., “Structure and optical properties of ZnSe/SiO2 layered nanocomposites”, Tech. Phys., 61:7 (2016), 1027–1031  crossref  isi  scopus
    10. Senchikhin I.N. Uryupina O.Ya. Zhavoronok E.S. Vysotskii V.V. Roldughin V.I., “Novel nanocomposites based on silver nanoparticles and mixed epoxyamine networks”, Colloid J., 78:4 (2016), 505–508  crossref  isi  scopus
    11. Guasch J., Diemer J., Riahinezhad H., Neubauer S., Kessler H., Spatz J.P., “Synthesis of Binary Nanopatterns on Hydrogels for Initiating Cellular Responses”, Chem. Mat., 28:6 (2016), 1806–1815  crossref  isi  scopus
    12. Molchanov S.P., Roldughin V.I., Chernova-Kharaeva I.A., Yurasik G.A., “Dependence of the structure of ring-shaped deposits resulting from evaporation of dispersion droplets on initial contact angle”, Colloid J., 78:5 (2016), 633–640  crossref  isi  scopus
    13. Bahauddin Sh.M., Robatjazi H., Thomann I., “Broadband Absorption Engineering to Enhance Light Absorption in Monolayer MoS$ _{2}$”, ACS Photonics, 3:5 (2016), 853–862  crossref  isi  scopus
    14. Molchanov S.P., Roldughin V.I., Chernova-Kharaeva I.A., Yurasik G.A., “Mechanisms of pinning accompanying evaporation of colloidal dispersion droplets”, Colloid J., 79:2 (2017), 234–243  crossref  isi  scopus
    15. Dement'eva O.V., Kartseva M.E., Ogarev V.A., Sukhov V.M., Rudoy V.M., “Metal nanoparticles on polymer surfaces. 7. The growth kinetics of gold nanoparticles embedded into surface layers of glassy polymers”, Colloid J., 79:1 (2017), 42–49  crossref  isi  scopus
    16. Alalykin S.S. Dedyukhin A.A. Zakirova R.M. Kobziev V.F. Kostenkov N.V. Krylov P.N. Fedotova I.V., “Production and Investigation of Layered Zinc Sulfide(Selenide)/Insulator Nanocomposites”, Tech. Phys., 62:5 (2017), 773–776  crossref  isi  scopus
    17. Molchanov S.P. Roldughin V.I. Chernova-Kharaeva I.A. Senchikhin I.N., “Mechanisms of Depinning Accompanying Evaporation of Colloidal Dispersion Droplets”, Colloid J., 79:4 (2017), 515–525  crossref  isi  scopus
    18. Molchanov S.P. Roldughin V.I. Chernova-Kharaeva I.A. Yurasik G.A. Senchikhin I.N., “The Factors Determining Formation Dynamics and Structure of Ring-Shaped Deposits Resulting From Capillary Self-Assembly of Particles”, Colloid J., 80:1 (2018), 59–72  crossref  isi  scopus
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