Nvidia geforce 8200m g
1) && state.current.name !== ‘site.type'”>Hardware.UserBenchmark: Nvidia GeForce M G
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GeForce M GTX, GeForce M GTS, GeForce M GS, GeForce M GT, GeForce M GT, GeForce M GS, GeForce M GT, GeForce M GS, GeForce M G, GeForce M G, GeForce M ION (Notebooks). Nov 14, · NVIDIA GeForce M G – Driver Download * Vendor: %NVIDIA% * Product: NVIDIA GeForce M G * Hardware Class: DISPLAY. Search For More Drivers *: . The M G is an intergrated gpu, I doubt you have a spare slot for a dedicated laptop graphics card. Laptop make and model?
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Scientists have created a nanomaterial that converts heat into electricity
The energy currently lost as heat can be used to generate electricity using silicon nanowires formed using a technology created by American researchers. Potential applications of this technology include personal power supplies embedded in clothing that could use human body temperature to charge cell phones and other electronic devices.
The attractiveness of a development that uses the thermoelectric properties of silicon lies in the fact that this material is widely used in semiconductor production; a significant infrastructure for its production and processing has been created in the world.
A feature of the proposed method is the synthesis of a variety of silicon nanowires in an aqueous solution on the surface of the wafer. Unlike other synthesis methods that produce longitudinal elements, this method produces many vertically aligned elements, resulting in a much rougher surface. In turn, this leads to a surprisingly high thermoelectric efficiency of the surface.
Silicon nanowires created in the Berkeley laboratory have remarkable thermoelectric properties even at room temperature. The first illustration shows a high temperature source in pink, the second site serves as a sensor. The second picture shows a cross-section of an array of silicon nanowires and a snapshot of a fragment of such a wire, taken using an electron microscope.
Nearly all of the world’s electricity, or about 10 trillion watts, is generated by heat engines – gas or steam turbines that convert heat into mechanical energy, which is then converted into electricity. Most of this heat, however, is not converted, but is released into the environment as heat (approximately 15 trillion watts). If even a small part of these losses can be converted into electricity, the effect will be enormous. So far, the problem is the lack of materials with suitable thermoelectric properties that could efficiently convert heat into electricity. Perhaps the development of specialists from Berkeley will be a decisive step towards the creation and use of such materials. In parallel with the continuation of research, scientists are looking for business partners capable of commercializing the technology.
Source: Berkeley Lab