期刊
CRYSTENGCOMM
卷 18, 期 17, 页码 2980-2993出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c6ce00342g
关键词
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资金
- US Department of Energy [DE-EE0006854, DE-FE0011577]
- US National Science Foundation [CBET-1344792]
- FEI Graduate Fellowship
- Directorate For Engineering
- Div Of Chem, Bioeng, Env, & Transp Sys [1344792] Funding Source: National Science Foundation
The scalable three-dimensional (3-D) integration of functional nanostructures into applicable platforms represents a promising technology for meeting the ever-increasing demands of fabricating high performance devices featuring cost-effectiveness, structural sophistication and multi-functional enabling. Such an integration process generally involves a diverse array of nanostructural entities (nano-entities) consisting of dissimilar nanoscale building blocks such as nanoparticles, nanowires, and nanofilms made of metals, ceramics, or polymers. Various synthetic strategies and integration methods have enabled the successful assembly of both structurally and functionally tailored nano-arrays into a unique class of monolithic devices. The performance of nano-array based monolithic devices is dictated by a few important factors such as materials substrate selection, nanostructure composition and nano-architecture geometry. Therefore, the rational material selection and nano-entity manipulation during the nano-array integration process, aiming to exploit the advantageous characteristics of nanostructures and their ensembles, are critical steps towards bridging the design of nanostructure integrated monolithic devices with various practical applications. In this article, we highlight the latest research progress of the two-dimensional (2-D) and 3-D metal and metal oxide-based nanostructural integrations into prototype devices applicable with ultrahigh efficiency, good robustness and improved functionality. Select examples of nano-array integration, scalable nanomanufacturing and representative monolithic devices such as catalytic converters, sensors and batteries will be utilized as the connecting dots to display a roadmap from hierarchical nanostructural assembly to practical nanotechnology implications ranging from energy, environmental, to chemical and biotechnology areas.
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