A startup has created a method for using a particle accelerator to slice microscopically thin silicon wafers that reduce the cost to manufacture solar panels by more than 60% by eliminating waste material by 50 to 100 times.
Bill Nye, the host of the science television series Bill Nye The Science Guy, visited Rayton's Santa Monica, Calif., headquarters and agreed to put his name behind the company. He also participated in a video explaining the process behind using a particle accelerator to manufacture silicon wafers.
Rayton Solar was founded in 2012 when Andrew Yakub, then a design engineer at the UCLA Particle Beam Physics Laboratory, saw the need for a less expensive method for producing silicon wafers, the basis for solar panels.
Along with working at the University of California, Los Angeles, Yakub was running a solar installation company at the time that relied on a federal grant program that made installing solar cost effective. With the grant program due to expire, Yakub wanted to invent a cheaper and more efficient solar cell.
The raw material of most conventional solar cells today is crystalline silicon. While silicon is the second most abundant element on Earth, it must first be refined in a furnace at temperatures as high as 1,800-degrees Celsius and undergo other expensive chemical processes before reaching the solar-grade purity of 99.999%, which allows it to collect light that can be turned into electricity.
Once in pure crystalline form, manufacturers use diamond saws to slice ingots from the silicon crystal to be used in solar cells, which make up solar panels. The sawing process, however, can turn as much as half of the material into dust, and the silicon wafers produced are up to 200 microns (about .007-in) thick.
Yakub said he patented a method for slicing silicon ingots using a proton particle accelerator, which produces a wafer just three microns thick and with no wasted material.
The proton particle accelerator costs about $2 million, Yakub said. But even with the added expense, manufacturers would still see at least a 60% reduction in silicon wafer manufacturing costs, he said.
One particle accelerator, Yakub said, can produce enough silicon wafers to manufacture six megawatts worth of solar cells per year, which is enough to equip about 1,000 homes with solar panels.
Today, thin-film silicon cells are already used to make a small number of solar panels. The manufacturing process -- called vapor deposition -- can be slow and more expensive than standard silicon crystalline production.
"This employs the use of a growth crystalline substrate where the new silicon is grown slowly on top to 30-50 microns. This method is slow and energy intensive, but also requires the use of 30-50 micron thick silicon," Yakub said. "At Rayton, we use a well-known technique of growing a large single crystalline boule (the ingot) and then exfoliating a thin 3-micron-layer of silicon off of it. We are a 'top down' technique while the vapor deposition methods are a 'bottom up' technique."
Since the growth of a single crystal ingot is already industrially scaled and produced worldwide, Rayton Solar doesn't experience the same complications from the silicon crystal growth method used in thin-film solar cell production.
"And we can ensure that the highest quality of silicon is used in our exfoliation step. Going down to 3 microns from 30-50 microns realizes further cost reductions," Yakub said.
One issue that arises from slicing silicon to only 3 microns thick is that its efficiency, or ability to collect light photons, is greatly reduced. Because the slicing technology is so efficient, however, electronic-grade or float-zone silicon can be used, which has a vastly higher efficiency compared with standard silicon used for solar cells, Yakub said.
"Float-zone silicon is 10 times more expensive as a raw material, but we use 100 times less of it so therefore it becomes more economical," Yakub said. "So Rayton's process creates solar panels that are 25% more efficient than the industry standard."
Yakub, whose company is privately held, plans to run the fund-raising campaign over the next year and then license the particle accelerator technology to solar panel manufacturers.
"Our plan is to prove this works with one machine at a commercial scale as a proof of concept," he said. "Then we can license the technology out to larger manufacturers."
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