GENERATING POWER FROM SHADOWS!

KT NEWS SERVICE. Dated: 6/5/2020 1:00:00 AM

NEW DELHI, Jun 4: A new device called a shadow-effect energy generator harnesses shadows to generate electricity, researchers report.
This concept opens up new approaches in generating green energy under indoor lighting conditions.
The shadow-effect energy generator (SEG) makes use of the contrast in illumination between lit and shadowed areas to generate electricity.
“Shadows are omnipresent, and we often take them for granted. In conventional photovoltaic or optoelectronic applications where a steady source of light is used to power devices, the presence of shadows is undesirable, since it degrades the performance of devices. In this work, we capitalized on the illumination contrast caused by shadows as an indirect source of power,” says research team leader Tan Swee Ching, an assistant professor in the materials science and engineering department at the National University of Singapore.
“The contrast in illumination induces a voltage difference between the shadow and illuminated sections, resulting in an electric current. This novel concept of harvesting energy in the presence of shadows is unprecedented.”
Mobile electronic devices such as smartphones, smart glasses, and e-watches require efficient and continuous power supply. As people wear these devices both indoors and outdoors, wearable power sources that could harness ambient light can potentially improve the versatility of these devices.
While commercially available solar cells can perform this role in an outdoor environment, their energy harvesting efficiency drops significantly under indoor conditions where shadows are persistent.
To address this technological challenge, the researchers developed a low-cost, easy-to-fabricate SEG to perform two functions: to convert illumination contrast from partial shadows castings into electricity; and to serve as a self-powered proximity sensor to monitor passing objects.
The SEG is made of a set of SEG cells arranged on a flexible and transparent plastic film. Each SEG cell is a thin film of gold deposited on a silicon wafer. Carefully designed, the SEG can be fabricated at a lower cost compared to commercial silicon solar cells. The team then conducted experiments to test the performance of the SEG in generating electricity and as a self-powered sensor.
“When the whole SEG cell is under illumination or in shadow, the amount of electricity generated is very low or none at all. When a part of the SEG cell is illuminated, a significant electrical output is detected,” says co-team leader Andrew Wee, a professor in the department of physics.
“We also found that the optimum surface area for electricity generation is when half of the SEG cell is illuminated and the other half in shadow, as this gives enough area for charge generation and collection respectively.”
Based on laboratory experiments, the team’s four-cell SEG is twice as efficient when compared with commercial silicon solar cells, under the effect of shifting shadows. The harvested energy from the SEG in the presence of shadows created under indoor lighting conditions is sufficient to power a digital watch (i.e. 1.2 V).
In addition, the team also showed that the SEG can serve as a self-powered sensor for monitoring moving objects. When an object passes by the SEG, it casts an intermittent shadow on the device and triggers the sensor to record the presence and movement of the object.
The researchers took four months to conceptualize, develop, and perfect the performance of the device. In the next phase of research, they will experiment with other materials, besides gold, to reduce the cost of the SEG.
The researchers are also looking at developing self-powered sensors with versatile functionalities, as well as wearable SEGs attached to clothing to harvest energy during normal daily activities.
Another promising area of research is the development of low-cost SEG panels for efficient harvesting of energy from indoor lighting.
Their research appears in the journal Energy & Environmental Science.

 

Video

Indian History... Read More
 

FACEBOOK

 

Daily horoscope

 

Weather