.png)
Liquid crystal displays (LCD) are used in a large number of electronic devices, including iPads and smartphones. To improve the contrast of the screen and remove reflection from sunlight and room lights, for example, LCDs are designed to absorb rather than reflect light. Typically, this absorbed ambient light, as well as backlight, is wasted as heat. Amador Menéndez-Velázquez and colleagues have designed a device that guides this absorbed light to the frame of the display where it is harvested by solar cells.
‘We noticed that the display surfaces of electronic devices are designed to be as black as possible, like solar cells,’ comments Menéndez-Velázquez. ‘We realized that we could exploit this to harvest energy without any loss in the display’s performance. For indoor applications, we estimate that the energy harvested could noticeably extend the battery life of portable devices. Sunlight is much stronger, and outdoors, devices could be powered only by light absorbed in their displays.’
The linear polarized luminescent solar concentrator (LSC) used in this device harvested the energy and transmitted it to the solar cells in the frame. Unlike other LSCs, the emission occurs at the near infrared, which means there is no loss in image quality. The polariser was made with dye-doped liquid crystals. But instead of purely absorptive dyes found in conventional polarisers, they use a combination of four different fluorescent dichroic molecules. The solar cells could generate an excess of 10µW cm-2 indoors, and up to 1–10mW cm-2 outdoors in the sun.
Work on improving the polarization selectivity of the device to reach industry standards, as well as better packaging to prevent the loss of harvested light is still needed
0 comments:
Post a Comment
Grace A Comment!