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dc.creatorJakšić, Zoran
dc.creatorMatović, Jovan
dc.creatorObradov, Marko
dc.creatorTanasković, Dragan
dc.creatorRadovanović, Filip
dc.creatorJakšić, Olga
dc.date.accessioned2019-05-06T19:52:58Z
dc.date.available2019-05-06T19:52:58Z
dc.date.issued2015
dc.identifier.urihttp://dais.sanu.ac.rs/123456789/803
dc.identifier.urihttps://cer.ihtm.bg.ac.rs/handle/123456789/2856
dc.description.abstractNanomembranes, freestanding quasi-2D structures with thickness of the order of tens of nm and smaller and a giant aspect ratio with lateral dimensions of the order of millimeters, even centimeters, represent an important building blocks in micro and nanosystems [1], corresponding to ubiquitous bilipid membranes in living cells [2]. In this contribution we present our results in theory, design and experimental fabrication of metallic and metal-dielectric nanomembranes with plasmonic properties, intended for the use in the field of sensing. We first consider different approaches to functionalization and nanostructuring of nanomembranes [3]. These include introduction of noble metal or transparent conductive oxides fillers directly into the nanomembrane, lamination (multilayering) and patterning by 2D arrays of subwavelength nanoholes. Within this context we describe our results on nanofabrication of 8 nm thick chromium-based composite nanomembranes. Biomimetic structures utilizing nanochannel-based pores are also considered. We further present our results related to the design of chemical and biological sensors based on nanomembranes with plasmonic metamaterial properties [4]. Such sensors function as refractometric devices utilizing evanescent near fields as optical concentrators and adsorption-desorption mechanism, which ensures their ultra-high sensitivity that reaches single molecule detection [5]. We present some results on chemical sensors utilizing nanomembranes exhibiting extraordinary optical transmission, as well as those based on doublefishnet structures. Finally we consider the enhancement of infrared detectors by nanomembranes [6] utilizing the designer plasmon mechanism [7].REFERENCES1. Jiang, C., Markutsya, S., Pikus, Y., and Tsukruk, V. V., Nature Mater., 3, 721-728 (2004).2. Matović, J., and Jakšić, Z., "Bionic (Nano)Membranes" in Biomimetics – Materials, Structures and Processes. Examples, Ideas and Case Studies, edited by Gruber, P.; Bruckner, D.; Hellmich, C.; Schmiedmayer, H.-B.; Stachelberger, H.; Gebeshuber, I. C., Berlin: Springer, 2011, pp 9-24.3. Jakšić, Z., and Matovic, J., Materials, 3, 165-200, (2010).4. Jakšić, Z., Vuković, S. M., Buha, J., and Matovic, J., J. Nanophotonics, 5, 051818 (2011)5. Jakšić, Z., Micro and Nanophotonics for Semiconductor Infrared Detectors: Towards an Ultimate Uncooled Device, Cham: Springer, 2014.6. Zijlstra, P., Paulo, P. M. R., and Orrit, M., Nature Nanotech., 7, 379-382 (2012).7. Pendry, J. B., Martín-Moreno, L., and Garcia-Vidal, F. J., Science, 305 847-848 (2004).en
dc.format(2015) 68-68
dc.formatapplication/pdf
dc.languageen
dc.publisherBelgrade : s. n.
dc.relationinfo:eu-repo/grantAgreement/MESTD/Technological Development (TD or TR)/32008/RS//
dc.relationinfo:eu-repo/grantAgreement/MESTD/Integrated and Interdisciplinary Research (IIR or III)/43009/RS//
dc.rightsopenAccess
dc.rights.urihttps://creativecommons.org/licenses/by-nc-nd/4.0/
dc.sourceXIX Symposium on Condensed Matter Physics SFKM 2015, 7–11 September 2015, Belgrade, Serbia: Book of Abstractsen
dc.subjectnanomembranes
dc.subjectsensing
dc.subjectplasmonics
dc.titlePlasmonic Nanomembranes for Detection and Sensingen
dc.typeconferenceObject
dc.rights.licenseBY-NC-ND
dcterms.abstractОбрадов, Марко; Танасковић, Драган; Радовановић, Филип; Јакшић, Олга; Матовић, Јован; Јакшић, Зоран;
dc.citation.spage68
dc.citation.epage68
dc.identifier.rcubhttps://hdl.handle.net/21.15107/rcub_dais_803
dc.identifier.fulltexthttps://cer.ihtm.bg.ac.rs//bitstream/id/8960/2882.pdf
dc.type.versionpublishedVersion


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