Tuesday 15 October 2019
Controlling the charge state of organic molecule quantum dots in a 2D nanoarray
Researchers have fabricated a self-assembled, carbon-based nanofilm where the charge state (ie, electronically neutral or positive) can be controlled at the level of individual molecules. Molecular self-assembly on a metal results in a high-density, 2D, organic quantum-dot array with electric-field-controllable charge state, with the organic molecules used as 'nano-sized building blocks' in fabrication of functional nanomaterials. Achieved densities are an order of magnitude larger than conventional inorganic systems.
Subscribe to:
Post Comments (Atom)
Good vibrations: New tech may lead to smaller, more powerful wireless devices
What if your earbuds could do everything your smartphone can, but better? A new class of synthetic materials could allow for smaller devices...
-
Do you need a MOSFET gate resistor? What value should it be? And should it go before or after the pulldown resistor? If you’re a bit impati...
-
I was first introduced to logic gates when I was around 14 years old. I had heard that computers consisted of ones and zeroes. But I didn’t...
-
A self-powered sensor could allow doctors to remotely monitor the recovery of surgical patients. The small, tube-like device is designed to ...
No comments:
Post a Comment