This Engineer’s Photo voltaic Panels Are Breaking Effectivity Information


When Yifeng Chen was a youngster in Shantou, China, within the early 2000s, he noticed a TV program that amazed him. The present highlighted rooftop photo voltaic panels in Germany, explaining that the panels generated electrical energy to energy the buildings and even earned the homeowners cash by letting them promote further power again to the electrical energy firm.

Yifeng Chen

Employer

Trina Photo voltaic

Title

Assistant vice chairman of know-how

Member Grade

Member

Alma Maters

Solar Yat-sen College, in Guangzhou, China, and Leibniz College Hannover, in Germany

An incredulous Chen marveled at not solely the know-how but in addition the economics. An influence authority would pay its prospects?

It gave the impression of magic: helpful and worthwhile electrical energy extracted from easy daylight. The marvel of all of it has fueled his desires ever since.

In 2013 Chen earned a Ph.D. in photovoltaic sciences and applied sciences, and immediately he’s assistant vice chairman of know-how at China’s Trina Photo voltaic, a Changzhou-based firm that is among the largest PV producers on the planet. He leads the corporate’s R&D group, whose efforts have set greater than two dozen world information for solar energy effectivity and output.

For Chen’s contributions to the science and know-how of photovoltaic power conversion, the IEEE member obtained the 2023 IEEE Stuart R. Wenham Younger Skilled Award from the IEEE Electron Gadgets Society.

“I used to be fairly shocked and so grateful” to obtain the Wenham Award, Chen says. “It’s a really high-level recognition, and there are such a lot of deserving specialists from all over the world.”

Trina Photo voltaic’s push for extra environment friendly {hardware}

At present’s industrial photo voltaic panels usually obtain about 20 % effectivity: They will flip one-fifth of captured daylight into electrical energy. Chen’s group is making an attempt to make the panels extra environment friendly.

The group is specializing in optimizing photo voltaic cell designs, together with the passivated emitter and rear cell (PERC), which is the trade normal for commodity photo voltaic panels.

Invented in 1983, PERCs are used immediately in practically 90 % of photo voltaic panels available on the market. They incorporate coatings on the back and front to seize daylight extra successfully and to keep away from shedding power, each on the surfaces and because the daylight travels by means of the cell. The coatings, generally known as passivation layers, are constituted of supplies comparable to silicon nitride, silicon dioxide, and aluminum oxide. The layers preserve negatively charged free electrons and positively charged electron holes aside, stopping them from combining on the floor of the photo voltaic cell and losing power.

Chen and his staff have developed a number of methods to spice up the efficiency of PERC panels, hitting a report of 24.5 % effectivity in 2022. One of many applied sciences is a multilayer antireflective coating that helps photo voltaic panels entice extra gentle. Additionally they created extraordinarily advantageous metallization fingers—slender strains on photo voltaic cells’ surfaces—to gather and transport the electrical present and assist seize extra daylight. They usually developed a sophisticated technique for laying the strips of conductive steel that run throughout the photo voltaic cell, generally known as bus bars.

Consultants predict the utmost effectivity of PERC know-how will likely be reached quickly, topping out at about 25 %.

a person wearing a white mask, white gloves and a blue suit holding a blue square with white lines on itIEEE Member Yifeng Chen shows an i-TOPCon photo voltaic module, which has a manufacturing effectivity of greater than 23 % and an influence output of as much as 720 watts.Trina Photo voltaic

“So the query is: How will we get photo voltaic cells much more environment friendly?” Chen says.

Through the previous few years he and his group have been engaged on tunnel oxide passivated contact (TOPCon) know-how. A TOPCon cell makes use of a skinny layer of “tunneling oxide” insulating materials—usually silicon dioxide—which is utilized to the photo voltaic cell’s floor. Just like the passivation layers on PERC cells, the tunnel oxide stops free electrons and electron holes from combining and losing power.

In 2022 Trina created a TOPCon-type panel with a report 25.5 % effectivity, and two months in the past the firm introduced it had achieved a report 740.6 watts for a mass-produced TOPCon photo voltaic module. The latter was the twenty sixth report Trina set for solar energy–associated efficiencies and outputs.

To attain that record-breaking efficiency for his or her TOPCon panels, Chen and his staff optimized the corporate’s manufacturing processes together with laser-induced firing, during which a laser heats a part of the photo voltaic cell and creates bonds between the steel contacts and the silicon wafer. The ensuing connections are stronger and higher aligned, enhancing effectivity.

“We’re making an attempt to maintain enhancing issues to entice just a bit bit extra daylight,” Chen says. “Gaining 1 or 2 % extra effectivity is large. These might sound like very tiny will increase, however at scale these small enhancements create a number of worth by way of economics, sustainability, and worth to society.”

Because the effectivity of photo voltaic cells rises and costs drop, Chen says, he expects solar energy to proceed to develop all over the world. China at the moment leads the world in put in solar energy capability, accounting for about 40 % of worldwide capability. The US is a distant second, with 12 %, in keeping with a 2023 Rystad Power report. The report predicts that China’s 500 gigawatts of photo voltaic capability in 2023 is prone to exceed 1 terawatt by 2026.

“I’m impressed through the use of science to create one thing helpful for human beings, after which pushed by the pursuit for excellence,” Chen says. “We are able to all the time study one thing new to make that change, enhance that piece of know-how, and get simply that little bit higher.”

Educated by solar-power pioneers

Chen attended Solar Yat-sen College in Guangzhou, China, incomes a bachelor’s diploma in optics sciences and applied sciences in 2008. He stayed on to pursue a Ph.D. in photovoltaics sciences and applied sciences. His analysis was on high-efficiency photo voltaic cells constituted of wafer-based crystalline silicon. His adviser was Hui Shen, a number one PV professor and founding father of the college’s Institute for Photo voltaic Power Methods. Chen calls him “the primary of three crucial figures in my scientific profession.”

In 2011 Chen spent a 12 months as a Ph.D. pupil at Leibniz College Hannover, in Germany. There he studied underneath Pietro P. Altermatt, the second influential determine in his profession.

Altermatt—a outstanding silicon solar-cell knowledgeable who would later grow to be principal scientist at Trina—suggested Chen on his computational strategies for modeling and analyzing the habits of 2D and 3D photo voltaic cells. The fashions play a key position in designing photo voltaic cells to optimize their output.

“Gaining 1 or 2 % extra effectivity is large. These might sound like very tiny will increase, however at scale, these small enhancements create a number of worth by way of economics, sustainability, and worth to society.”

“Dr. Altermatt modified how I take a look at issues,” Chen says. “In Germany, they actually deal with machine physics.”

After finishing his Ph.D., Chen grew to become a technical assistant at Trina, the place he met the third extremely influential individual in his profession: Pierre Verlinden, a pioneering photovoltaic researcher who was the corporate’s chief scientist.

At Trina, Chen shortly ascended by means of R&D roles. He has been the corporate’s assistant vice chairman of know-how since 2023.

IEEE’s “treasure” trove of analysis

Chen joined IEEE as a pupil as a result of he needed to attend the IEEE Photovoltaic Specialists Convention, the longest-running occasion devoted to photovoltaics, photo voltaic cells, and solar energy.

The membership was notably useful throughout his Ph.D. research, he says, as a result of he used the IEEE Xplore Digital Library to entry archival papers.

“My work has actually been impressed by papers I discovered through IEEE,” Chen says. “Plus, you find yourself clicking round and studying different work that isn’t associated to your subject however is so fascinating.

“The publication repository is a treasure. It’s eye-opening to see what’s occurring inside and outdoors of your trade, with new discoveries taking place on a regular basis.”

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