Search results for "Nanoengineering"
showing 6 items of 6 documents
ON THE 3D CONTROL OF THE FUNCTIONAL STRUCTURE OF MOLECULAR THIN FILMS
2013
Apart from being a very challenging issue, three-dimensional order in molecular thin films is of critical importance to gain and exploit a series of key properties in emerging fields like organic/hybrid photovoltaics, organic thin film transistors, sensors and plastic electronics in general. For example, the development of nanostructured bi-continuous bulk heterojunctions (BHJs) is an important advancement leading to improved photovoltaic power conversion efficiency with respect to planar heterojunctions. Here we show an original low cost, easy-to-implement and multi-tasking bottom-up approaches to modulate the supramolecular morphology in three-dimensional (3D) systems together with their …
Nanoengineered Gd3Al2Ga3O12 Scintillation Materials with Disordered Garnet Structure for Novel Detectors of Ionizing Radiation
2019
The authors are grateful to Baker Hughes a GE Company for support of this activity. This work has also been supported by grant N14.W03.31.0004 from the Government of the Russian Federation.
Engineering of nanostructured carbon materials with electron or ion beams.
2007
Irradiating solids with energetic particles is usually thought to introduce disorder, normally an undesirable phenomenon. But recent experiments on electron or ion irradiation of various nanostructures demonstrate that it can have beneficial effects and that electron or ion beams may be used to tailor the structure and properties of nanosystems with high precision. Moreover, in many cases irradiation can lead to self-organization or self-assembly in nanostructures. In this review we survey recent advances in the rapidly evolving area of irradiation effects in nanostructured materials, with particular emphasis on carbon systems because of their technological importance and the unique ability…
Engineering 3D nanoscale order in molecular thin films for organic photovoltaics
2010
Growth Mechanism and Surface Functionalization of Metal Chalcogenides Nanostructures
2014
Following the discovery of carbon fullerenes and nanotubes (NTs), nanostructured materials and their synthesis have attracted tremendous attention due to their superior mechanical properties, their unique electronic behavior, and their high potential in making technologically advanced nanodevices. Among different classes, layered metal chalcogenides nanostructures are of interest for a variety of applications ranging from nanoelectronics or as source materials for energy applications, nanotribology and in heterogeneous catalysis. These nanoparticles are metastable phases. Therefore, equilibrium methods are necessary to prevent the formation of the thermodynamically stable bulk phase. On the…
DFT Prediction of Enhanced Reducibility of Monoclinic Zirconia upon Rhodium Deposition.
2018
Oxides are an important class of materials and are widely used, for example, as supports in heterogeneous catalysis. In a number of industrial catalytic processes, oxide supports actively participate in chemical transformations by releasing lattice oxygen anions. While this is intuitively understood for reducible oxides, the reducibility of irreducible oxides may be modified via nanoengineering or upon inclusion of foreign species. Our calculations predict that the ability of irreducible monoclinic zirconia to release oxygen improves substantially upon deposition of rhodium. Through a comprehensive screening of Rh/ZrO2 with different size of the rhodium species, we find that a Rh adatom and…