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Career Trajectory
Bio
Our group is interested in several problems in materials chemistry and physics, including data-storage, chemical separation, magnetic resonance imaging, sintering and pigments. Our approach involves the synthesis of materials that contain nanoparticulate solid state components, and study of their structure and properties by a variety of physical techniques.
1) Nanomagnets for biomedical applications. This project involves the assembly of nanomagnets into colloidal spherical diamagnetic matrixes. We have developed methods for growing superparamagnetic nanocrystals with very exotic magnetic properties both in dense and hollow spherical matrixes. The surface chemistry of the composites is rationally modified in order to impart functionality, selectivity and biocompatibility.The final goal of this work is to obtain ideal superparamagnetic microstructures for biomedicine and also to gain information on factors controlling the magnetic response of these materials. For free information on Biomagnetism I recommend you go to the new open access journal Biomagnetic Research and Technology
2) Nanostructured Ceramics. Another project involves the search of new routes for the preparation of nanostructured ceramics made of "highly stable" materials. This project also involves the characterization of the obtained materials as well as the study of some of their relevant properties.
3) Data storage. Another area of research involves the synthesis of magnetic particulate media for recording applications. We have developed methods to prepare needle-like magnetic metallic particles with applications in digital recording. Ultimately, the goal is to create materials with high coercivity and ultrasmall particle size.
1) Nanomagnets for biomedical applications. This project involves the assembly of nanomagnets into colloidal spherical diamagnetic matrixes. We have developed methods for growing superparamagnetic nanocrystals with very exotic magnetic properties both in dense and hollow spherical matrixes. The surface chemistry of the composites is rationally modified in order to impart functionality, selectivity and biocompatibility.The final goal of this work is to obtain ideal superparamagnetic microstructures for biomedicine and also to gain information on factors controlling the magnetic response of these materials. For free information on Biomagnetism I recommend you go to the new open access journal Biomagnetic Research and Technology
2) Nanostructured Ceramics. Another project involves the search of new routes for the preparation of nanostructured ceramics made of "highly stable" materials. This project also involves the characterization of the obtained materials as well as the study of some of their relevant properties.
3) Data storage. Another area of research involves the synthesis of magnetic particulate media for recording applications. We have developed methods to prepare needle-like magnetic metallic particles with applications in digital recording. Ultimately, the goal is to create materials with high coercivity and ultrasmall particle size.
Research Interests
Papers共 117 篇Author StatisticsCo-AuthorSimilar Experts
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Alvaro Gallo-Cordova,Jesus G Ovejero, Ana M Pablo-Sainz-Ezquerra,Jhon Cuya,Balachandran Jeyadevan,Sabino Veintemillas-Verdaguer,Pedro Tartaj,María Del Puerto Morales
The Chemical Recordno. 7-8 (2018): 1178-1191
ACS Omegano. 5 (2017): 2351-2359
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