Tuesday, October 8, 2019
Location, Location, Location - How charge placement can control a self-assembled structure
Researchers have achieved precise and predictable control of molecular chains by positioning charges. Their method leads to particles with reproducible sizes.
New optical system can measure flowing liquids as small as 10 nanoliters per minute
Researchers have developed an optical system that accurately measures the flow of extraordinarily tiny amounts of liquids - as small as 10 billionths of a liter (nanoliters) per minute.
Cooling nanotube resonators with electrons
Scientists report on a technique that uses electron transport to cool a nanomechanical resonator near the quantum regime.
Creating a single phonon in ambient conditions
In a new experiment, physicists have shown that a single phonon can be excited and detected at room temperature and in the air, making the quantum behaviour of vibrating matter more tangible.
A promising route to scalable quantum photonics
Scientists have integrated single photon emitters in 2D layered materials with a silicon nitride photonic chip.
New 'supercondensers' store electric charge in textile materials
Researchers have developed new devices that store electric charge in textile materials, which could be used to, for example, charge our mobile phone.
Flexible, biocompatible nanocellulose sensors
Researchers have developed flexible, biocompatible nanocellulose sensors that can be attached to the skin. The 3D-printed analytic chips made of renewable raw materials will even be biodegradable in future.
A simple way to control swarming molecular machines
The swarming behavior of about 100 million molecular machines can be controlled by applying simple mechanical stimuli such as extension and contraction. This method could lead to the development of new swarming molecular machines and small energy-saving devices.
Modified quantum dots capture more energy from light and lose less to heat
Researchers discover a new approach for capturing energy from light-generated, 'hot' electrons, avoiding wasteful heat loss.
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