Grumezescu has published peer-reviewed papers, 20 book chapters, 6 co-authored books and 11 edited books.
Inorganic Frameworks as Smart Nanomedicines
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Search for books, journals or webpages All Pages Books Journals. View on ScienceDirect. Editors: Alexandru Grumezescu. Paperback ISBN: Imprint: William Andrew.
Inorganic Nanoparticles: Synthesis, Applications, and Perspectives - Semantic Scholar
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Inorganic Nanoparticles for Biomedical Applications
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- Accounting in Politics: Devolution and Democratic Accountability (Routledge Studies in Accounting).
- Educational Leadership: Personal Growth for Professional Development (Published in association with the British Educational Leadership and Management Society).
- CALCULUS OF VARIATIONS.
- Inorganic Nanoparticles: Synthesis, Applications, and Perspectives - CRC Press Book.
- Materials Science and Engineering - Concepts, Methodologies, Tools, and Applications - Knovel.
- Otherwise Than Being or Beyond Essence (Martinus Nijhoff Philosophy Texts).
New search for: De Cola, Luisa. New search for: Stephan, Holger. New search for: Dawson, Kenneth A. Elsevier Science B. Claudia Altavilla graduated in chemistry cum laude in from the University of Catania, Italy. She received her PhD in chemistry in from the same university with a dissertation on the synthesis and characterization of nanostructured materials assembled on inorganic substrates. She worked as a visiting scientist at Ludwig Maximillians Universitat in Munich, Germany, with Professor Wolfgang Parak, and at the University of Florence, Italy, with Professor Dante Gatteschi, where she was involved in the magnetic characterization of nanoparticle monolayers on silicon substrates.
Since , she has been a professor of inorganic protective and consolidant methods in cultural heritage at the University of Catania. She has published several papers and monographs. Enrico Ciliberto is a full professor of inorganic chemistry at the University of Catania and the president of the Cultural Heritage Technologies Faculty at the University of Syracuse, Italy.
His current scientific interest includes the application of nanotechnologies for the conservation of works of art. He has also published over scientific papers. Lee Estee Lauder Companies, Inc. The advent of nanoscale science and technology has stimulated a big effort to develop new strategies for the synthesis of nanomaterials of a controlled size and shape. Moreover, due to their dimensions and shapes being similar to several biological structures e. Nowadays, the volume of studies dealing with these topics represents one of the most impressive phenomenon in all of scientific history.
Even so only one Nobel prize, shared by three scientists, has been awarded for the development of the studies in this field in the last 20 years, in , Robert F. Curl Jr. Kroto, and Richard E. Smalley were awarded for their discovery of fullerenes.
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In Figure 1. Compared with the notable amount of scientific and technological studies in this field, only one Nobel prize could sound quite inadequate. In fact, very few people know that even in the sixth century BC, nanotechnology was commonly used in the Attic region Greece.
During the Archaic and Classical periods, roughly — BC, in the region of Attica, dominated by the city of Athens, the production of 1 2 3. The reason why a deep black color formed on the vase surface was discovered only a few years ago. During the firing process, spinel-like nanoparticles formed inside a glassy layer, which is a few microns thick Maniatis et al.
Courtesy of Prof.
Enrico Ciliberto. Considering this type of decoration in the context of cultural heritage, it is a remarkable discovery in the history of technology, because nanocrystal films have been produced empirically since medieval times Borgia et al. Luster is a type of ceramic decoration, which results in a beautiful metallic shine and colored iridescence on the surface of the ceramic object.
The earliest luster was probably made in Iraq in the early ninth century AD on tin-glazed ceramics. However, luster technology spread from the Middle East to Persia, Egypt, Spain, and Italy, and its splendid production continued in the centuries that followed through to the present day.
In TEM, luster layers appear with a homogeneous surface microstructure formed by small quasispherical clusters, embedded in an amorphous glassy matrix Figure 1. With respect to the composition of these clusters, transmission electron microscopy TEM fitted with energy dispersive x-ray spectroscopy EDS analyses indicate that the nanoclusters are particles of pure copper and silver PerezArantegui and Larrea In addition, red glasses that are very ancient are colored due to the presence of nanoparticles.
In fact, excavations at Qantir, on the Nile Delta, have given insight into the organization and development of an industrial estate in Ramesside, Egypt. In founding the new capital of Egypt, Piramesses, during the nineteenth dynasty, a huge bronze-casting factory was built, accompanied by a range of other, nonmetallic high-temperature industries. Bruno Brunetti. Besides, an abundant production of faience implements, coated with copper-colored glazes, and the manufacturing of Egyptian blue, the coloration of large quantities of red glass also played a major role.
The production of glass is attested by numerous crucibles, mostly with adhering traces of red glass. While evidence of glass working by artisans is absent, there are indications that the production of both raw glass and glass coloring took place. The nature and complexity of high-temperature industrial debris found at Qantir suggest a highly specialized organization of labor within a framework of shared technologies and skills of closely controlled temperatures and redox conditions. This cross-craft workshop pattern further reveals a significant level of intracraft specialization as well as the spatial separation of glass making, coloring, and finally working in the Late Bronze Age Egypt Rehren et al.