000088579 001__ 88579
000088579 005__ 20200512131832.0
000088579 020__ $$a978-84-92521-02-9
000088579 0247_ $$2doi$$a10.26754/uz.978-84-92521-02-9
000088579 037__ $$aBOOK-2020-086
000088579 041__ $$aeng
000088579 100__ $$aFernández-Pacheco Chicón, Rodrigo$$b
000088579 245__ $$aSynthesis, Characterisation and Functionalisation of Magnetic Nanoparticles for Biomedical Applications
000088579 260__ $$aZaragoza$$bPrensas Universitarias de Zaragoza$$c2008
000088579 300__ $$a222
000088579 520__ $$aNanotechnology is a relatively new interdisciplinary field to which much attention has been paid for the last years. It involves researchers from very different areas: Chemistry, Physics, Biology, Biochemistry, Chemical Engineering, Materials Science or Medicine. In the interface of all these disciplines lay the possibility to tackle new challenges, unthinkable a few years ago [Klabunde2001]. Nanoscience has opened many possibilities in most technology areas, unreachable so far. It is devoted to the studies of phenomena at the nanoscale, that is, the limit “where the smallest man-made devices meet the atoms and molecules of the natural world” [Wong1999]. Nanoscience is based on the fabrication and characterization of nanostructured, or nanophase systems. These can be three- dimensional: nanoparticles or nanospheres, two-dimensional: thin films, or one- dimensional: quantum dots. The nanoscale regime is a very special point in the length scale, at which the classical laws of physics are not suitable for the explanation of many phenomena, so quantum approaches are needed. Significant changes in the chemical and physical properties of materials take place at the limit at which the interactions correlation length (electrical, magnetic, crystalline...) is of the same order of magnitude of the system size. That opens new possibilities for the development of smart new functional materials, like improved catalysts, polymers, ceramics, tissues, solid state medicines or drug carriers...
000088579 6531_ $$amagnetismo–tesis doctorales
000088579 6531_ $$ananotecnología–tesis doctorales
000088579 6531_ $$amedicina nuclear–tesis doctorales
000088579 8560_ $$fzaguan@unizar.es
000088579 8564_ $$uhttps://zaguan.unizar.es/record/88579/files/BOOK-2020-086.pdf$$zTexto completo
000088579 909CO $$ooai:zaguan.unizar.es:88579$$pbooks
000088579 980__ $$aBOOK$$bPRENSASUZ$$b