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• W1593555950 abstract "Colloidal nanocrystals are mesoscopic materials occupying the region between the atomistic and the macroscopic worlds.1 The physical properties of these tiny crystals manifest the transition from molecular limit to the solid state providing benchmark systems for experimental and theoretical studies.1 In recent years, there have been tremendous developments in the synthetic control of nanocrystal size, shape, and composition, thus allowing the tailoring of their properties.2-5 These properties, alongside with the ability to manipulate them using the powerful scaffolds of chemical syntheses, also leads to potential applications of colloidal nanocrystals in diverse fields involving physics and biology.6-11 A tremendous amount of research in recent years has been directed towards the design and synthesis of multicomponent nanostructures.5-13 These nanostructures combine two or more components into one solid structure without the use of organic linking molecules, therefore each component is in direct contact with another through one or more of its crystal facets.14 Such complex structures have the potential to combine magnetic, plasmonic, semiconducting15 and other physical or chemical properties into a single nanomaterial.9, 16-17 Efforts to create these multicomponent nanostructures have largely been driven by their increased functionality.18-19 This increase in function combined with the potential for enhanced, and often tunable, chemical and physical properties makes these nanostructures useful in applications otherwise inaccessible by their single component counterparts.20 For example, such nanostructures have already found applications in areas such as multimodal biomedical imaging/sensing21 and photocatalysis.22-23 To date, a variety of multicomponent nanostructures have already been successfully synthesized and can be sorted into two groups: i) Centrosymmetric structures that are symmetric about a center point, i.e. core-shell nanostructures, which most often combine two or more semiconducting materials in order to enhance their photoluminescence;24 and ii) Non-centrosymmetric structures that are asymmetric relative to a center point, i.e. hybrid nanostructures.11, 25-27 In recent years, many research groups have successfully synthesized various multicomponent nanomaterials including semiconductor-semiconductor,28-29 metalmetal,30-32 semiconductor-metal,33-39 and insulator/metal systems26,40-42 with either a" @default.
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• W1593555950 date "2011-06-28" @default.
• W1593555950 modified "2023-09-30" @default.
• W1593555950 title "Colloidal Hybrid Nanocrystals: Synthesis, Properties, and Perspectives" @default.
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• W1593555950 doi "https://doi.org/10.5772/16418" @default.
• W1593555950 hasPublicationYear "2011" @default.
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