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- Mar 2, 2009
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| Processor | AMD Ryzen 5 7600 |
|---|---|
| Motherboard | Gigabyte B650 Aorus Elite AX |
| Cooling | Thermalright Peerless Assassin 120 SE |
| Memory | Kingston Fury Beast DDR5-5600 16GBx2 |
| Video Card(s) | Gigabyte Gaming OC AMD Radeon RX 7800 XT 16GB |
| Storage | TEAMGROUP T-Force Z440 2TB, SPower A60 2TB, SPower A55 2TB, Seagate 4TBx2 |
| Display(s) | AOC 24G2 + Xitrix WFP-2415 |
| Case | Montech Air X |
| Audio Device(s) | Realtek onboard |
| Power Supply | Be Quiet! Pure Power 11 FM 750W 80+ Gold |
| Mouse | Logitech G Pro X Superlight Wireless |
| Keyboard | Royal Kludge RK-S98 Tri-Mode RGB Mechanical Keyboard |
| Software | Windows 10 |
By making the basic building blocks of batteries out of ink, Harvard materials scientist Jennifer Lewis is laying the groundwork for lithium-ion batteries and other high-performing electronics that can be produced with 3-D printers.
Although the technology is still at an early stage, the ability to print batteries and other electronics could make it possible to manufacture new kinds of devices. Think of self-powered biomedical sensors, affixed to the skin, that would continuously transmit vital signs to a smartphone. Or existing products could be made more simply and efficiently.
For example, the plastic shell of a hearing aid is already 3-D printed for a custom fit inside a wearer’s ear. But the electronics are manufactured separately, and the batteries are often the type that must be replaced frequently. If the electronics and a rechargeable battery were printed together, the final product could be made more rapidly and seamlessly.
Full article here.
Although the technology is still at an early stage, the ability to print batteries and other electronics could make it possible to manufacture new kinds of devices. Think of self-powered biomedical sensors, affixed to the skin, that would continuously transmit vital signs to a smartphone. Or existing products could be made more simply and efficiently.
For example, the plastic shell of a hearing aid is already 3-D printed for a custom fit inside a wearer’s ear. But the electronics are manufactured separately, and the batteries are often the type that must be replaced frequently. If the electronics and a rechargeable battery were printed together, the final product could be made more rapidly and seamlessly.
Full article here.