Magnetic Nanomaterials

The constant search for innovative magnetic materials increasingly leads to the creation of highly engineered systems built in different forms (films, wires, particles), structured on the nanoscale in at least one spatial direction, and often characterized by the coexistence of two or more phases th...

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Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
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Online Access:Open Access: DOAB: description of the publication
Open Access: DOAB, download the publication
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720 1 |a Del Bianco, Lucia  |4 edt 
720 1 |a Del Bianco, Lucia  |4 oth 
245 0 0 |a Magnetic Nanomaterials 
260 |a Basel  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2022 
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520 |a The constant search for innovative magnetic materials increasingly leads to the creation of highly engineered systems built in different forms (films, wires, particles), structured on the nanoscale in at least one spatial direction, and often characterized by the coexistence of two or more phases that are magnetically and/or structurally different. In magnetic systems, the nanometric structural characteristics of the constituent elements, together with the type and strength of the magnetic interactions between them, determine the overall magnetic behavior and can lead to the appearance of unexpected and amazing magnetic phenomena. Indeed, the study of the magnetic properties of nanomaterials continues to arouse great interest for their intriguing fundamental properties and prospective technological applications. This Special Issue contributes to broadening the knowledge on magnetic nanomaterials, demonstrating the breadth and richness of this research field as well as the growing need to address it through an interdisciplinary approach. The papers collected in this book (two reviews and eight regular articles) report cutting-edge studies on the production and characterization of a variety of novel magnetic nanomaterials (nanoparticles, nanocomposites, thin films and multilayers), which have the potential to play a key role in different technologically advanced sectors, such as biotechnology, nanomedicine, energy, spintronics, data storage, and sensors. 
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546 |a English 
650 7 |a History of engineering & technology  |2 bicssc 
650 7 |a Technology: general issues  |2 bicssc 
653 |a bone tissue engineering 
653 |a Burstein-Moss shift 
653 |a cell labelling 
653 |a chemical synthesis 
653 |a CoFeB 
653 |a core/shell nanoparticles 
653 |a density functional theory 
653 |a disordered magnetism 
653 |a electrodeposition technique 
653 |a epitaxial Ni-Mn-Ga films 
653 |a exchange bias 
653 |a Fe-oxide nanocrystallites 
653 |a FePd alloy 
653 |a ferrimagnetic materials 
653 |a glassy correlation length 
653 |a Heusler alloys 
653 |a hybrid systems 
653 |a III-nitrides 
653 |a interlayer exchange coupling 
653 |a iron nitrides 
653 |a Kubelka-Munk function 
653 |a magnetic aggregates 
653 |a magnetic anisotropy 
653 |a magnetic freezing 
653 |a magnetic heating 
653 |a magnetic hyperthermia 
653 |a magnetic hysteresis 
653 |a magnetic interactions 
653 |a magnetic materials 
653 |a magnetic nanoparticles 
653 |a magnetic properties 
653 |a magnetic shape memory alloys 
653 |a magneto-sonoporation 
653 |a magnetron sputtering 
653 |a martensitic transition 
653 |a mixed nanoparticle systems 
653 |a multicore nanoparticles 
653 |a nanocomposites 
653 |a nanocrystals 
653 |a nanogranular Au/Fe-oxide 
653 |a nanoparticles 
653 |a nanowires 
653 |a osteogenesis 
653 |a Raman spectroscopy 
653 |a sol-gel 
653 |a stem cells 
653 |a structural characterisation 
653 |a substitutional doping 
653 |a super-spin glass 
653 |a superparamagnetic iron oxide particles 
653 |a superparamagnetism 
653 |a synthetic antiferromagnet 
653 |a thermally assisted magnetic scanning probe lithography 
653 |a transmission electron microscopy 
653 |a twin boundary 
653 |a ultrasounds 
653 |a UV-blue photoluminescence 
653 |a vibrating sample magnetometry 
653 |a ZnNiO 
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856 4 0 |u https://mdpi.com/books/pdfview/book/5017  |7 0  |z Open Access: DOAB, download the publication