https://www.ceesdekker.net Secrets

2009, discovery of a whole new phenotype for microorganisms in slim nanofluidic slits; and initially detection of area protein buildings together DNA applying solid-state nanopores

Reconstitution of ultrawide DNA origami pores in liposomes for transmembrane transportation of macromolecules

Multicolor imaging in the bacterial nucleoid and cell division proteins with blue, orange, and in the vicinity of-infrared fluorescent proteins

Nanofabrication of electrodes with sub-five nm spacing for transport experiments on one molecules and metal clusters

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The coiled-coil in the human Rad50 DNA repair protein incorporates distinct segments of elevated adaptability

What distinguishes biology from chemistry is that these parts with each other make up a dwelling method. The trick of stated lifetime, I think, lies from the interactions, the interplay of All those molecules. The big concern concerning the origin of lifetime is still unanswered. How did we ever evolve from very simple molecules in to the really complex programs we see now? We have no idea. I need to work on these kinds of significant, open queries.’

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What if, in lieu of employing standard major-down silicon electronics, transistors could possibly be built from The underside up using solitary organic molecules as being the https://www.ceesdekker.net switching components? This concept, which grew to become The premise of right now’s industry of molecular electronics, very first emerged during the 1970s.

But carbon nanotubes have remained a investigation matter of significant curiosity to numerous. Certainly, the outlook on utilizing carbon nanotubes to construct sensible devices, in places including radio-frequency electronics, digital electronics and versatile electronics, continues to be vivid.

Illustration (four) of bending configurations in 3D simulations of DNA rods on nanopores. A percentage of the membrane is proven in gray, the rim of your pore is highlighted in pink, and also a 3D rendering on the motion of the DNA rod is exhibited.

Cees Dekker is Distinguished University Professor at TU Delft. Educated as being a physicist, he pioneered nanotechnology with numerous discoveries on carbon nanotubes within the 1990s. Because 2000, he moved to single-molecule biophysics and nanobiology. His current research concentrates on (i) nanopores for protein sequencing; (ii) chromosome composition, specifically SMC motor protein; and (iii) creating a residing synthetic mobile from lifeless molecules. Dekker can be an elected member of your KNAW and fellow to the APS and the IOP.

Electrical transportation in monolayers of phthalocyanine molecular wires and AFM imaging of only one wire bridging two electrodes

Illustration (2) of bending configurations in 3D simulations of DNA rods on nanopores. A part of the membrane is proven in gray, the rim of your pore is highlighted in red, as well as a 3D rendering on the movement of the DNA rod is shown.

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