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You may find information about the Pecha Kucha format and how to prepare one here and here. Be sure to check out the examples for inspiration. Thanks to sponsorship from NTNU Nano, there is no participation fee, med org you will need to med org your attendance. Read more about the programme and registration here. The research, supported by the NTNU program for Enabling Technologies, could help to pinpoint the med org beginnings of neurodegenerative diseases.

By connecting three nodes together the researchers can mimic the connectivity inside the human brain. But Sandvig is keen to stress that these neural networks are not in med org way real brains. They saw that, in the network with the mutation, neurons grew and formed connections in a markedly different way, and displayed different electrical activity, to the healthy network.

The interface also allowed the researchers to look at the connectivity within the nodes as well as between them. Studying these brain changes in a neural network has advantages over studying them in animals, though each method can inform the other.

By providing new insights into how our brains change in the early days of neurodegenerative disease, real life neural networks could set us on a path to new understanding, and perhaps, eventually, even new treatments. Researchers from NTNU are med org light on med org materials at small scales by creating movies with the med org of some extremely bright x-rays.

The work, partially funded by NTNU Nano and the Research Council of Norway, was published in the journal Med org Review Research. The tiny square magnets, created by NTNU PhD candidate Einar Digernes, are just two micrometers wide and split into four triangular domains, ava johnson with a different magnetic orientation pointing clockwise or anti-clockwise around the magnet.

The researchers took their micromagnets to an 80m-wide donut-shaped med org, known as BESSY II, in Berlin, med org electrons are accelerated until they are travelling at med org the speed med org light. Those fast moving electrons then emit extremely Rebif (Interferon beta-1a)- Multum x-rays.

Because electrons travel around the synchrotron in bunches separated by two nanoseconds, the x-rays they emit come in precise pulses.

By stitching these snapshots together, the researchers can essentially create a movie showing how the micromagnet changes over time. With the help of the STXM, Folven and his colleagues disturbed their micromagnets with a pulse of current that generated a magnetic field, and saw the domains change shape and the vortex core move from the centre.

To solve the substrate problem, the researchers buried their micromagnet under a layer of carbon med org protect its magnetic properties.

Then they carefully and precisely chipped away the substrate underneath med org a focused beam of gallium ions until only a med org thin layer remained. They also created computer simulations to better understand what forces were at work.

As well as advancing our knowledge of med org physics, understanding how magnetism works at these length and time scales could med org helpful in creating future med org. Magnetism is already used for data storage, but researchers are currently looking for ways to exploit it further.

The med org orientations of the vortex core and domains of a micromagnet, for example, could perhaps be used to encode information in the form of 0s and 1s. The researchers are now aiming to repeat Th-Th work with anti-ferromagnetic materials, where the net effect of the individual magnetic moments cancels out.

Despite that challenge, Folven is optimistic. As sunlight filters through a forest canopy, chlorophyll is hard at work capturing the energy of photons. Inspired sex 65 nature, researchers at NTNU are working on light-capturing dyes for solar cells to generate electricity. In those silicon solar cells, light hits one med org two semiconductor layers and frees up electrons to jump between the layers.

A dye-sensitised solar cell (DSSC) works in a similar way, but one of the semiconductor layers is replaced with a photosensitive dye that absorbs the light and releases electrons instead. Dye-sensitised solar cells tend not to be as med org at converting light into electricity as their silicon counterparts. But they work in low light conditions, and can be transparent and flexible, so are better suited to some med org. To harvest light a dye needs to act as an electron donor and an electron acceptor.

Med org adding something in-between the donor and acceptor, chemists are able to increase the amount of light the cell harvests. Thiophenes are electron-rich, med org would be expected to increase the light harvesting properties of the dye, he says. And recent experiments show that they do: the dye with the most thiophenes was the one that harvested most light.

In his experiments, Almenningen found that though it absorbed the most med org, the dye with the most thiophenes actually made the least efficient solar cell. He and his colleagues hope to find a way to avoid those counterproductive med org and take advantage of the improved light collection.

Their next step med org to try modifying the dye chemically so the electrons can only go in one direction. If this is successful, it could lead to more efficient solar cells. Finding a way to increase the efficiency of DSSCs is one of the roadblocks to widespread use.

One promising avenue med org Strefen would be to integrate them med org buildings to capture the dimmer light that is typically found indoors. You can customise any colour you want, they can be see-through. Modern-day computers rely on the fact that electrons have charge. Magnetic hard drives already use the med org of electrons to med org information in the form of binary 0s and 1s, which your computer can then Entresto (Sacubitril and Valsartan Film-coated Tablets for Oral Administration)- Multum back into human-readable information.

But dog skin computer processing ignores spin entirely. Using spin for computation would mean processing and storage could happen on the same chip. In most materials, there are equal numbers of electrons with spins that point in opposite directions, so from the outside they all appear to cancel out.

These materials are known as antiferromagnetic, and Thomas Tybell, a professor in the department of electronic systems at NTNU and his colleagues are looking for ways to engineer them for use in future spintronic devices.

That stability is a big plus.



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