The 2-Minute Rule for cees dekker

The 2-Minute Rule for cees dekker

Blog Article

In the event you identify any big omissions or other inaccuracies while in the publication list, be sure to allow us to know.

It was only from the 1990s however, when nanotechnology experienced Superior to the stage where solitary molecules can be manipulated, that the very first experimental products began to seem.

[Laughs] ‘It was definitely a great risk! At some time, I had been perfectly knowledgeable that it could go Erroneous Which I could grow to be much less successful, but I just ignored that. Curiosity has often been my strongest driving power. And luckily it all labored out.’

A rhythmically pulsing leaf-spring DNA-origami nanoengine that drives a passive follower Mathias Centola

This yielded a breakthrough. Inside just a few months, we were capable of evaluate transport by way of an individual solitary-walled carbon nanotube. According to very low-temperature experiments by a brilliant PhD scholar in my team, Sander Tans (now a valued colleague and professor at Delft University of Technological know-how with the Lively study lab at AMOLF in Amsterdam), we confirmed that carbon nanotubes were authentic quantum wires with very extended (micrometres) Digital coherence lengths — confirming theoretical predictions of metallic behaviour.

Our investigate ranges within the biophysics of DNA to artificial cells and outside of. You should take a look under with the spectrum of our recent assignments.

All parameters ended up a similar for every panel in this video clip, except for the Preliminary placement on the 6hb rod (demonstrated in blue) on the nanopore. Simulations that terminated early because of translocation in the rod from the pore are marked by a gray qualifications.

Example (one) of bending configurations in 3D simulations of DNA rods on nanopores. A portion of the membrane is demonstrated in gray, cees dekker the rim in the pore is highlighted in pink, as well as a 3D rendering of the motion of your DNA rod is shown.

In 1993, for a young and eager associate professor at Delft College of Technology, I had originally concentrated the study attempts of my team on measuring the electrical conductance of only one conducting-polymer molecule. Within two a long time, we experienced established a device through which only one wire of the phthalocyaninepolysiloxane polymer was connected in between two carefully spaced steel nanoelectrodes.

But carbon nanotubes have remained a investigate subject matter of sizeable desire to quite a few. In fact, the outlook on working with carbon nanotubes to create functional units, in places like radio-frequency electronics, digital electronics and versatile electronics, stays vivid.

Because 2000 he moved to one-molecule biophysics and nanobiology, with investigation from research of DNA loop extrusion and supercoiling to DNA translocation as a result of nanopores. Far more lately his investigate has focused on researching chromatin construction and mobile division with germs on chip, though he can be attempting to in the long run Develop artificial cells from The underside up.

In the meantime, to make sure ongoing assist, we are exhibiting the positioning with out styles and JavaScript.

2005, discovery from the system of DNA uncoiling by topoisomerase enzymes; discovery of long-array conformational modifications in Mre11/DNA repair service complexes; and initial pressure measurements on a DNA molecule in the nanopore

Reliable-condition nanopores have established being a amazingly multipurpose probe for one-molecule Investigation of DNA. I'll explain a number of our modern results – especially DNA knots – along with our attempts to increase the capabilities of strong-state nanopores even further, in the way of one-protein detection, graphene nanopores, plasmonic nanopores, and DNA origami nanopores.