A novel liquid chromatographic method utilizing the extended-nano space called extended-nano chromatography, encompassing the 10-1000nm region, has emerged recently. It utilizes an extended-nano fluidic channel, which is fabricated on a glass chip, as a separation column. The advantages of extended-nano chromatography are that it uses extremely small sample volumes (attoliter to femtoliter) and demonstrate high separation efficiency. In this review, the fundamentals of extended-nano chromatography are summarized. Instrumentations to realize attoliter sample injections and sensitive detection methods are described. A fabrication method for nanochannel separation columns, including substrate-bonding and surface modification, is also introduced. A highly efficient separation was performed within several seconds, as predicted by the theory. Future perspectives, including living single cell analysis and ultrahigh performance separation, are also discussed.
Keywords: Microchip nanofluidics.
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