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Light from an exotic crystal semiconductor could lead to better solar cells

Rutgers-led team finds a new way to control light emitted by a hybrid crystal

Date:
March 6, 2019
Source:
Rutgers University
Summary:
Scientists have found a new way to control light emitted by exotic crystal semiconductors, which could lead to more efficient solar cells and other advances in electronics, according to a new study.
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Scientists have found a new way to control light emitted by exotic crystal semiconductors, which could lead to more efficient solar cells and other advances in electronics, according to a Rutgers-led study in the journal Materials Today.

Their discovery involves crystals called hybrid perovskites, which consist of interlocking organic and inorganic materials, and they have shown great promise for use in solar cells. The finding could also lead to novel electronic displays, sensors and other devices activated by light and bring increased efficiency at a lower cost to manufacturing of optoelectronics, which harness light.

The Rutgers-led team found a new way to control light (known as photoluminescence) emitted when perovskites are excited by a laser. The intensity of light emitted by a hybrid perovskite crystal can be increased by up to 100 times simply by adjusting voltage applied to an electrode on the crystal surface.

"To the best of our knowledge, this is the first time that the photoluminescence of a material has been reversibly controlled to such a wide degree with voltage," said senior author Vitaly Podzorov, a professor in the Department of Physics and Astronomy in the School of Arts and Sciences at Rutgers University-New Brunswick. "Previously, to change the intensity of photoluminescence, you had to change the temperature or apply enormous pressure to a crystal, which was cumbersome and costly. We can do it simply within a small electronic device at room temperature."

Semiconductors like these perovskites have properties that lie between those of the metals that conduct electricity and non-conducting insulators. Their conductivity can be tuned in a very wide range, making them indispensable for all modern electronics.

"All the wonderful modern electronic gadgets and technologies we enjoy today, be it a smartphone, a memory stick, powerful telecommunications and the internet, high-resolution cameras or supercomputers, have become possible largely due to the decades of painstaking research in semiconductor physics," Podzorov said.

Understanding photoluminescence is important for designing devices that control, generate or detect light, including solar cells, LED lights and light sensors. The scientists discovered that defects in crystals reduce the emission of light and applying voltage restores the intensity of photoluminescence.

Hybrid perovskites are more efficient and much easier and cheaper to make than standard commercial silicon-based solar cells, and the study could help lead to their widespread use, Podzorov said. An important next step would be to investigate different types of perovskite materials, which may lead to better and more efficient materials in which photoluminescence can be controlled in a wider range of intensities or with smaller voltage, he said.


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Materials provided by Rutgers University. Note: Content may be edited for style and length.


Journal Reference:

  1. Hee Taek Yi, Sylvie Rangan, Boxin Tang, C. Daniel Frisbie, Robert A. Bartynski, Yuri N. Gartstein, Vitaly Podzorov. Electric-field effect on photoluminescence of lead-halide perovskites. Materials Today, 2019; DOI: 10.1016/j.mattod.2019.01.003

Cite This Page:

Rutgers University. "Light from an exotic crystal semiconductor could lead to better solar cells." ScienceDaily. ScienceDaily, 6 March 2019. <www.sciencedaily.com/releases/2019/03/190306081719.htm>.
Rutgers University. (2019, March 6). Light from an exotic crystal semiconductor could lead to better solar cells. ScienceDaily. Retrieved March 28, 2024 from www.sciencedaily.com/releases/2019/03/190306081719.htm
Rutgers University. "Light from an exotic crystal semiconductor could lead to better solar cells." ScienceDaily. www.sciencedaily.com/releases/2019/03/190306081719.htm (accessed March 28, 2024).

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