J
Jan C.T. Eijkel
Researcher at MESA+ Institute for Nanotechnology
Publications - 234
Citations - 9645
Jan C.T. Eijkel is an academic researcher from MESA+ Institute for Nanotechnology. The author has contributed to research in topics: Self-healing hydrogels & Energy transformation. The author has an hindex of 51, co-authored 230 publications receiving 8470 citations. Previous affiliations of Jan C.T. Eijkel include University of Twente & Northwestern Polytechnical University.
Papers
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Principles and applications of nanofluidic transport
TL;DR: This review provides an introduction to the theory of nanofluidic transport, focusing on the various forces that influence the movement of both solvents and solutes through nanochannels, and reviews the applications of nan offluidic devices in separation science and energy conversion.
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Nanofluidics: what is it and what can we expect from it?
TL;DR: In this paper, the present state of research in this field and possible directions of development are discussed, focusing on the very diverse background of nanofluidics in biology, chemistry, physics and engineering and valuable knowledge available in these disciplines.
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Technologies for nanofluidic systems: top-down vs. bottom-up - a review
TL;DR: It is concluded that technology in the region of 1-10 nm is lacking and potentially can be covered by using the pulsed-laser deposition method as a controlled way for thin film deposition (thickness of a few nanometers) and further structuring by the top-down method.
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A general model to describe the electrostatic potential at electrolyte oxide interfaces
TL;DR: In this article, a new general theory to describe the electrostatic potential at the metal oxide electrolyte solution interface is presented, which describes the variations of the electric potential as a function of the differential double layer capacitance and the intrinsic buffer capacity.
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A wireless electrochemiluminescence detector applied to direct and indirect detection for electrophoresis on a microfabricated glass device.
TL;DR: A novel electrochemiluminescence (ECL) detector is presented in this article that consists of a microfabricated "U"-shape floating platinum electrode placed across the separation channel and the indirect detection of three amino acids.