![]() Read more about how to correctly acknowledge RSC content. Permission is not required) please go to the Copyright The properties of the localized surface plasmon resonance (LSPR) and the surface enhanced Raman scattering (SERS) of the coreshell bimetallic nanostructures, that is the monodisperse AuAg. If you want to reproduce the wholeĪrticle in a third-party commercial publication (excluding your thesis/dissertation for which If you are the author of this article, you do not need to request permission to reproduce figuresĪnd diagrams provided correct acknowledgement is given. Provided correct acknowledgement is given. If you are an author contributing to an RSC publication, you do not need to request permission Core has expanded its product base as we are now a Franchised Distributor of electronic components. Please go to the Copyright Clearance Center request page. To request permission to reproduce material from this article in a commercial publication, Provided that the correct acknowledgement is given and it is not used for commercial purposes. An energy transfer relationship between core-shell CdSe/ZnS quantum dots (QDs) and the optical protein bacteriorhodopsin (bR) is shown, demonstrating a. This article in other publications, without requesting further permission from the RSC, Fu,Ĭreative Commons Attribution-NonCommercial 3.0 Unported Licence. Theranostic metal–organic framework core–shell composites for magnetic resonance imaging and drug delivery The Fe 3O core–shell composites show good biocompatibility, high drug loading capacity, sustained drug release, and outstanding MR imaging capability, as well as effective chemotherapeutic efficacy, demonstrating the feasibility of designing theranostic Fe 3O core–shell composites for cancer diagnosis and therapy. In the composites, the UiO-66 shell is devoted for encapsulating the drug, whereas the Fe 3O 4 core serves as a MR contrast agent. Copper oxide (CuO and Cu 2 O) compounds are interesting materials because of their application as catalysts, interconnects in electronic, corrosion of alloys, etc. In this study, we demonstrate novel MOF-based theranostic Fe 3O core–shell composites constructed by in situ growth of a UiO-66 MOF shell on a Fe 3O 4 core for simultaneous drug delivery and magnetic resonance (MR) imaging. Core-shell metal-semiconductor nanoparticles have attracted many interests due to their potential application in many areas 2 and also interesting physics involved in the process. Metal–organic frameworks (MOFs) have shown great potential in designing theranostic probes for cancer diagnosis and therapy due to their unique properties, including versatile structures and composition, tunable particle and pore size, enormous porosity, high surface area, and intrinsic biodegradability.
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