Self-Healing at the Nanoscale (PDF)
Mechanisms and Key Concepts of Natural and Artificial Systems
(Sprache: Englisch)
Self-healing materials can repair damage caused by their activity, similar to how biological systems heal themselves after being wounded. This book presents a general strategy and key concepts of self-healing systems, repairing mechanisms at the nanoscale,...
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Self-healing materials can repair damage caused by their activity, similar to how biological systems heal themselves after being wounded. This book presents a general strategy and key concepts of self-healing systems, repairing mechanisms at the nanoscale, and the role of nanostructures in these systems. The text covers natural and artificial systems, including nanostructured and macroscopic systems. It also reviews a series of systems that show potential for building self-healing devices.
Autoren-Porträt
Vincenzo Amendola has been an assistant professor of physical chemistry in the Department of Chemical Sciences of Padua University since 2008. He received his Ph.D. in material science and engineering in 2007 and his master's degree in material science in 2004, both from Padua University, working in the group of Professor M. Meneghetti. In 2007, he was a 6 month visiting PhD student at Massachusetts Institute of Technology, as part of the group of Professor F. Stellacci, and in 2011 he was a 7 month academic visitor at Cambridge University, as part of the group of Dr. A.C. Ferrari. He was honored with the Levi prize and the Semerano prize from the Italian Chemical Society. He is the author of several peer-reviewed papers, one patent, and has given invited talks at several conferences, including the first conference about Laser Irradiation and Nanoparticles Generation in Liquids (ANGEL2010). He also serves as referee for several journals about nanotechnology, plasmonics and physical chemistry. His main research topics are the laser ablation synthesis in solution (LASiS) of functional and functionalizable nanostructures, the study of plasmonic properties of nanoparticles, and, in general, the interaction of nanosecond laser pulses with matter for the generation of new materials and of new phenomena (like self-healing processes). He is currently collaborating with various research groups in Europe and Asia. More information about his research activities can be found on the web at www.chimica.unipd.it/vincenzo.amendola.Moreno Meneghetti is a full professor of physical chemistry at the University of Padova. He focuses his research interests on the optical properties of materials as tools for understanding their behavior. He uses both experimental and theoretical approaches for characterizing phase transitions in conducting and superconducting organic materials, focusing especially on electron-phonon couplings involvi
Bibliographische Angaben
- 2011, 463 Seiten, Englisch
- Herausgegeben: Vincenzo Amendola, Moreno Meneghetti
- Verlag: Taylor & Francis
- ISBN-10: 1439854742
- ISBN-13: 9781439854747
- Erscheinungsdatum: 19.12.2011
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