Síntese verde de nanopartículas de óxido de zinco

This paper provides a detailed overview of developments in transducer materials technology relating to their current and future applications in micro-scale devices. Recent advances in piezoelectric, magnetostrictive and shape-memory alloy systems are discussed and emerging transducer materials such as magnetic nanoparticles, expandable micro-spheres and conductive polymers are introduced. Materials properties, transducer mechanisms and end applications are described and the potential for integration of the materials with ancillary systems components is viewed as an essential consideration. The review concludes with a short discussion of structural polymers that are extending the range of micro-fabrication techniques available to designers and production engineers beyond the limitations of silicon fabrication technology.

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Negative Refractive Index Metasurfaces for Enhanced Biosensing

Jakšić

Vukovic

Matovic

et al. 2010

Materials

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In this paper we review some metasurfaces with negative values of effective refractive index, as scaffolds for a new generation of surface plasmon polariton-based biological or chemical sensors. The electromagnetic properties of a metasurface may be tuned by its full immersion into analyte, or by the adsorption of a thin layer on it, both of which change its properties as a plasmonic guide. We consider various simple forms of plasmonic crystals suitable for this purpose. We start with the basic case of a freestanding, electromagnetically symmetrical plasmonic slab and analyze different ultrathin, multilayer structures, to finally consider some two-dimensional “wallpaper” geometries like split ring resonator arrays and fishnet structures. A part of the text is dedicated to the possibility of multifunctionalization where a metasurface structure is simultaneously utilized both for sensing and for selectivity enhancement. Finally we give an overview of surface-bound intrinsic electromagnetic noise phenomena that limits the ultimate performance of a metasurfaces sensor.

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Functionalization of Artificial Freestanding Composite Nanomembranes

Jakšić

Matovic

2010

Materials

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Artificial nanomembranes may be defined as synthetic freestanding structures with a thickness below 100 nm and a very large aspect ratio, of at least a few orders of magnitude. Being quasi-2D, they exhibit a host of unusual properties useful for various applications in energy harvesting, sensing, optics, plasmonics, biomedicine, etc. We review the main approaches to nanomembrane functionalization through nanocompositing, which ensures performance far superior to that of simple nanomembranes. These approaches include lamination (stacking of nanometer-thin strata of different materials), introduction of nanoparticle fillers into the nanomembrane scaffold, nanomembrane surface sculpting and modification through patterning (including formation of nanohole arrays and introduction of ion channels similar in function to those in biological nanomembranes). We also present some of our original results related to functionalization of metal matrix composite nanomembranes.

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Field effect transistor based on ions as charge carriers

Matovic

Adamovic

Radovanovic

et al. 2012

Sensors and Actuators B: Chemical

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Simple and reliable technology for manufacturing metal-composite nanomembranes with giant aspect ratio

Matovic

Jakšić

2009

Microelectronic Engineering

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Jovan Matovic

New materials for micro-scale sensors and actuators

Negative Refractive Index Metasurfaces for Enhanced Biosensing

Functionalization of Artificial Freestanding Composite Nanomembranes

Field effect transistor based on ions as charge carriers

Simple and reliable technology for manufacturing metal-composite nanomembranes with giant aspect ratio

Contact Info

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