Solar Energy
Giant clams may hold the answers to making solar energy more efficient
Giant clams may hold the answers to making solar energy more efficient
by Jim Shelton for Yale News
New Haven CT (SPX) Jul 03, 2024
Solar panel and biorefinery designers could learn a thing or two from iridescent giant clams living near tropical coral reefs, according to a new Yale-led study.
This is because giant clams have precise geometries – dynamic, vertical columns of photosynthetic receptors covered by a thin, light-scattering layer – that may just make them the most efficient solar energy systems on Earth.
“It’s counter-intuitive to a lot of people, because clams operate in intense sunlight, but actually they’re really dark on the inside,” said Alison Sweeney, associate professor of physics and of ecology and evolutionary biology in Yale’s Faculty of Arts and Sciences. “The truth is that clams are more efficient at solar energy conversion than any existing solar panel technology.”
In the new study, published in the journal PRX: Energy, a research team led by Sweeney presents an analytical model for determining the maximum efficiency of photosynthetic systems based on the geometry, movement, and light-scattering characteristics of giant clams. It is the latest in a series of research studies from Sweeney’s lab that highlight biological mechanisms from the natural world that could inspire new sustainable materials and designs.
In this case, the researchers looked specifically at the impressive solar energy potential of iridescent giant clams in the shallow waters of Palau in the Western Pacific.
The clams are photosymbiotic, with vertical cylinders of single-celled algae growing on their surface. The algae absorb sunlight – after the light has been scattered by a layer of cells called iridocytes.
Both the geometry of the algae and the light scattering of the iridocytes are important, the researchers say. The algae’s arrangement in vertical columns – which makes them parallel to the incoming light – enables the algae to absorb sunlight at the most efficient rate. This is because the sunlight has been filtered and scattered by the layer of iridocytes, and the light then wraps uniformly around each vertical algae cylinder.
Based on the giant clams’ geometry, Sweeney and her colleagues developed a model to calculate quantum efficiency – the ability to convert photons into electrons. The researchers also factored in fluctuations in sunlight, based on a typical day in the tropics with a sunrise, midday sun intensity, and sunset. The quantum efficiency was 42%.
But then the researchers added a new wrinkle: the way giant clams stretch themselves in reaction to changes in sunlight. “Clams like to move and groove throughout the day,” Sweeney said. “This stretching moves the vertical columns farther apart, effectively making them shorter and wider.”
With this new information, the clam model’s quantum efficiency jumped to 67%. By comparison, Sweeney said, a green leaf system’s quantum efficiency in a tropical environment is only about 14%.
An intriguing comparison, according to the study, would be northern spruce forests. The researchers said boreal spruce forests, surrounded by fluctuating layers of fog and clouds, share similar geometries and light-scattering mechanisms with giant clams, but on a much larger scale. And their quantum efficiency is nearly identical.
“One lesson from this is how important it is to consider biodiversity, writ large,” Sweeney said. “My colleagues and I continue to brainstorm about where else on Earth this level of solar efficiency might happen. It is also important to recognize we can only study biodiversity in places where it is maintained.”
She added: “We owe a major debt to Palauans, who put vital cultural value on their clams and reefs and work to keep them in pristine health.”
Such examples may offer inspiration and insights for more efficient sustainable energy technology.
“One could envision a new generation of solar panels that grow algae, or inexpensive plastic solar panels that are made out of a stretchy material,” Sweeney said.
The study’s first author is Amanda Holt, an associate research scientist in Sweeney’s lab. The study’s co-author is Lincoln Rehm, a Palauan-American and former graduate student at Drexel University and researcher at the Palau International Coral Reef Center, who is now at the National Oceanography and Atmospheric Administration.
The research was funded by a Packard Foundation fellowship and the National Science Foundation.
Research Report:Simple Mechanism for Optimal Light-Use Efficiency of Photosynthesis Inspired by Giant Clams
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Solar Energy
DGIST enhances quantum dot solar cell performance
DGIST enhances quantum dot solar cell performance
by Riko Seibo
Tokyo, Japan (SPX) Oct 04, 2024
A research team led by Professor Jongmin Choi from the Department of Energy Science and Engineering at DGIST, in collaboration with Gyeongsang National University’s Professor Tae Kyung Lee and Kookmin University’s Professor Younghoon Kim, has developed a new method that significantly boosts the performance and longevity of perovskite quantum dot solar cells. Their innovative approach addresses a key issue: surface distortions on quantum dots that hinder solar cell efficiency.
Perovskite quantum dots are widely regarded as essential for next-generation solar cells due to their high light-to-electricity conversion efficiency and scalability. However, the process of replacing the “ligands” on their surface often causes distortions, akin to crumpled paper, that degrade solar cell performance.
The research team tackled this problem by introducing short ligands that firmly grip both sides of the quantum dots. This method effectively restores the quantum dot’s distorted surface, resembling the process of flattening crumpled paper. By smoothing the surface, they significantly reduced defects and improved both the performance and the stability of the solar cells. The power conversion efficiency rose from 13.6% to 15.3%, and the cells maintained 83% of their performance over 15 days, marking a major advancement in solar cell technology.
“Through this research, we could minimize surface defects on the quantum dots and stabilize their surfaces by newly adopting these amphiphilic ligands, thereby significantly improving the efficiency and stability of the solar cells,” explained Professor Jongmin Choi. He also noted the team’s intention to extend this approach to other photoelectric devices in the future.
This study, a collaborative effort by DGIST, Gyeongsang National University, and Kookmin University, was supported by the National Research Council of Science and Technology, the DGIST R and D Program, and the New Faculty Research Foundation at Gyeongsang National University. The findings were published in the ‘Chemical Engineering Journal’ on September 15, 2024.
Research Report:Multifaceted anchoring ligands for uniform orientation and enhanced cubic-phase stability of perovskite quantum dots
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Solar Energy
Philippines’ Marcos opens first EV battery plant
Philippines’ Marcos opens first EV battery plant
by AFP Staff Writers
Manila (AFP) Sept 30, 2024
President Ferdinand Marcos inaugurated on Monday the first factory for electric vehicle batteries in the Philippines, calling it the “future” of clean energy.
The Australian-owned lithium-iron-phosphate factory aims to produce two gigawatt-hours of batteries per year by 2030, powering about 18,000 electric vehicles or nearly half a million home battery systems.
“We have worked very hard and tried to do our best to bring this kind of technology to the Philippines with a clear recognition that this is the future,” Marcos said in a livestreamed speech.
“As the first manufacturing plant in the Philippines for advanced iron phosphate batteries… (it) sets the stage for the Philippines to become a player in clean energy storage in our part of the world.”
Located in New Clark city north of Manila, the StB Giga Factory Inc. facility will create 2,500 local jobs and channel five billion pesos ($89.2 million) into the economy each year, Marcos said.
The investment aligns with the government’s efforts to “transition our country to renewable energy”, and would help Manila “entice more investors in renewable energy facilities in the country”, he added.
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Solar Energy
Fire breaks out at Chinese battery giant CATL plant
Fire breaks out at Chinese battery giant CATL plant
by AFP Staff Writers
Beijing (AFP) Sept 29, 2024
A fire broke out Sunday at a factory belonging to Chinese battery giant CATL, which supplies electric vehicle makers including Tesla, but only a “relatively small” impact on operations is expected, the company said.
A CATL spokesperson said no injuries or casualties had occurred at the plant in the coastal city of Ningde, and that “the reasons behind this accident are still under investigation”.
Emergency services were sent to the plant to fight the fire and to organise the evacuation of any people who were inside the 15,000 square metre (160,000 square feet) site, a statement by the Dongqiao Economic and Technological Development Zone said.
Firefighters were alerted to the blaze just before 11:30 AM local time (0330 GMT).
It was not immediately clear what was produced at the plant, CATL’s base in the eastern province of Fujian, but the company said the effect of the now extinguished fire would not be significant.
“The impact to CATL’s overall production operation is relatively small,” the spokesperson said.
Videos published by the Chinese business media outlet Cailianshe, and posted on the Weibo social network, showed parts of a large white building in flames with thick gray smoke rising into the air.
AFP could not immediately verify the authenticity of the images.
CATL was founded in 2011 and produces more than a third of the electric vehicle batteries sold worldwide for automakers that include Mercedes-Benz, BMW, Volkswagen, Toyota, Honda and Hyundai.
ehl-reb/des
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