Abstract
Integrated chemical systems on microfluidic chips are further downscaling to 101–103 nm scale, which we call extended-nano space. The extended-nano space is a transient space from single molecules to bulk condensed phase, and new liquid properties can be expected in fluidics and chemistry. Actually, many unique liquid properties are increasingly reported which are quite different with microspace. In addition, development of new chemical devices is in progress by utilizing the unique characteristics of extended nanospace. Although new research area is being formed, there exist many challenges in fundamental technologies (nanofabrication, fluidic control, detection, partial surface modification, etc.) due to the extremely small size. Optical near field (ONF) technology is one promising solution because the size of ONF is comparable with extended-nano space and also has unique optical properties such as non-adiabatic optical transitions. In this chapter, we introduce our approach to construct a new micro and extended-nano chemical systems by utilizing the unique characteristics of ONF.
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Acknowledgements
This work was supported by Core Research for Evolutionary Science and Technology (CREST) of Japan Science and Technology Agency (JST), Specially Promoted Research and Core-to-Core Program of Japan Society for the Promotion of Science (JSPS).
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Mawatari, K., Pihosh, Y., Shimizu, H., Kazoe, Y., Kitamori, T. (2013). Micro and Extended-Nano Fluidics and Optics for Chemical and Bioanalytical Technology. In: Ohtsu, M. (eds) Progress in Nanophotonics 2. Nano-Optics and Nanophotonics. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-35719-0_5
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