Japan sees bright future for ultra-thin, flexible solar panels
Pliable perovskite panels are perfect for mountainous Japan, with its shortage of flat plots for traditional solar farms. And a key component of the panels is iodine, something Japan produces more of than any country but Chile.
The push faces some obstacles: perovskite panels contain toxic lead, and, for now, produce less power and have shorter lifespans than their silicon counterparts.
Still, with a goal of net-zero by 2050 and a desire to break China's solar supremacy, perovskite cells are "our best card to achieve both decarbonisation and industrial competitiveness," industry minister Yoji Muto said in November.
"We need to succeed in their implementation in society at all costs," he said.
The government is offering generous incentives to get industry on board, including a ¥157 billion ($1 billion) subsidy to plastic maker Sekisui Chemical for a factory to produce enough perovskite solar panels to generate 100 megawatts by 2027, enough to power 30,000 households.
By 2040, Japan wants to install enough perovskite panels to generate 20 gigawatts of electricity, equivalent to adding about 20 nuclear reactors.
That should help Japan's target to have renewable energy cover up to 50% of electricity demand by 2040.
The nation is looking to solar power, including perovskite and silicon-based solar cells, to cover up to 29% of all electricity demand by that time, a sharp rise from 9.8% in 2023.
"To increase the amount of renewable energy and achieve carbon neutrality, I think we will have to mobilize all the technologies available," said Hiroshi Segawa, a specialist in next-generation solar technology at the University of Tokyo.
"Perovskite solar panels can be built domestically, from the raw materials to production to installation. In that sense, they could significantly contribute to things like energy security and economic security," he said.
Tokyo wants to avoid a repeat of the past boom and bust of the Japanese solar business.
In the early 2000s, Japanese-made silicon solar panels accounted for almost half the global market.
Now, China controls more than 80% of the global solar supply chain, from the production of key raw material to assembling modules.
Silicon solar panels are made of thin wafers that are processed into cells that generate electricity.
They must be protected by reinforced glass sheets and metal frames, making the final products heavy and cumbersome.
Perovskite solar cells, however, are created by printing or painting ingredients such as iodine and lead onto surfaces like film or sheet glass.
The final product can be just a millimeter thick and a tenth the weight of a conventional silicon solar cell.
Perovskite panels' malleability means they can be installed on uneven and curved surfaces, a key feature in Japan, where 70% of the country is mountainous.
The panels are already being incorporated into several projects, including a 46-storey Tokyo building to be completed by 2028.
The city of Fukuoka has also said it wants to cover a domed baseball stadium with perovskite panels.
And major electronics brand Panasonic is working on integrating perovskite into windowpanes.
"What if all of these windows had solar cells integrated in them?" said Yukihiro Kaneko, general manager of Panasonic's perovskite PV development department, gesturing to the glass-covered high-rise buildings surrounding the firm's Tokyo office.
That would allow power to be generated where it is used, and reduce the burden on the national grid, Kaneko added.
For all the enthusiasm, perovskite panels remain far from mass production.
They are less efficient than their silicon counterparts, and have a lifespan of just a decade, compared to 30 years for conventional units.
The toxic lead they contain also means they need careful disposal after use.
However, the technology is advancing fast. Some prototypes can perform nearly as powerfully as silicon panels and their durability is expected to reach 20 years soon.
University professor Segawa believes Japan could have a capacity of 40 gigawatts from perovskite by 2040, while the technology could also speed up renewable uptake elsewhere.
"We should not think of it as either silicon or perovskite. We should look at how we can maximize our ability to utilize renewable energy," Segawa said.
"If Japan could show a good model, I think it can be brought overseas."
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Japan Times
3 hours ago
- Japan Times
China starts construction on world's largest hydropower dam in Tibet
China's Premier Li Qiang announced the start of construction on what will be the world's largest hydropower dam, located on the eastern rim of the Tibetan plateau and estimated to cost around $170 billion, the official Xinhua news agency said. The project is part of China's push to expand renewable energy and reduce carbon emissions. Consisting of five cascade hydropower stations, the dam will be located in the lower reaches of the Yarlung Zangbo River and could affect millions downstream in India and Bangladesh. Li described the hydropower project as a "project of the century" and said special emphasis "must be placed on ecological conservation to prevent environmental damage", Xinhua said in its report on Saturday. Authorities have not indicated how many people the Tibet project would displace and how it would affect the local ecosystem, one of the richest and most diverse on the plateau. But according to Chinese officials, hydropower projects in Tibet will not have a major impact on the environment or on downstream water supplies. India and Bangladesh have nevertheless raised concerns about the dam. NGOs including the International Campaign for Tibet say the dam will irreversibly harm the Tibetan plateau and that millions of people downstream will face severe livelihood disruptions. The dam is estimated to have a capacity of 300 billion kilowatt-hours of electricity annually and is expected to help meet local energy demand in Tibet and the rest of China. The project will play a major role in meeting China's carbon peaking and carbon neutrality goals, stimulate related industries such as engineering and create jobs in Tibet, Xinhua said in December when the project was first announced. A section of the Yarlung Zangbo falls a dramatic 2,000 meters within a short span of 50 km, offering huge hydropower potential. The Yarlung Zangbo becomes the Brahmaputra river as it leaves Tibet and flows south into India's Arunachal Pradesh and Assam states and finally into Bangladesh. China has already started hydropower generation on the upper reaches of the Yarlung Zangbo, which flows from the west to the east of Tibet.
Japan Times
3 hours ago
- Japan Times
Voter turnout reaches 58.52% in Japan's Upper House poll
Voter turnout in Sunday's election for Japan's House of Councilors stood at 58.52% as of 2:30 a.m. on Monday, up from 52.05% in the previous Upper House election in 2022, according to a tally. The number of people who cast their ballots under the early voting system ahead of the election came in at 26,181,865, a record high for any national poll in the country, accounting for 25.12% of all eligible voters, according to the internal affairs ministry. The figure was up by 6,568,390 voters from the previous Upper House election in 2022. The increase apparently came since the election was scheduled for the second day of a three-day weekend. The number of early voters rose in all 47 prefectures, with Miyazaki logging the biggest increase, of 49.43%. Kumamoto followed, with a climb of 44.59%, and Kochi, with 43.31%.
Japan Times
3 hours ago
- Japan Times
China quietly issues 2025 rare earth quotas, sources say
China has quietly issued its first 2025 rare earth mining and smelting quotas without the typical public statement, sources with knowledge of the matter said this week, another sign of Beijing tightening its control over the crucial sector. The quotas are closely monitored as a barometer for the global supply of rare earths, a group of 17 elements used in electric vehicles, wind turbines, robots and missiles. China is the world's largest producer of the minerals, and the government typically issues them twice a year to state-owned companies, but they have been delayed this year. The government issued the first set of quotas for the year only last month, without the usual public statement, said the sources, with one of them saying the companies were told not to share the numbers for security reasons. These details are being reported here for the first time. The sources did not give the quota volumes. China is increasingly sensitive about rare earths and its control over the supply, which it has been willing to assert amid its trade discussions with the U.S. and European Union. Beijing added several of the elements and related magnets to its export restriction list in retaliation for U.S. tariff hikes, cutting off supply and forcing some automakers outside China to partially shutter production. In the previous four years, China's Ministry of Industry and Information Technology issued the first batch of quotas in the first quarter of the year in an announcement on its website. The ministry did not immediately reply to a request sent by fax for a comment on why the information has not been publicly issued. Last year, China issued two batches of mining quotas for 270,000 metric tons, with annual supply growth slowing to 5.9% from 21.4% in 2023. The smelting and separation quota in 2024 was also in two batches, totaling 254,000 tons, up 4.2% from 2023. Beijing has used the quota system, first introduced in 2006, and corporate consolidation to tame the industry and give officials control over output. Beijing has narrowed access to the quotas, with only two state-owned groups — China Rare Earth Group and China Northern Rare Earth Group High-Tech — eligible last year, down from six previously. The quotas were delayed this year partly because of a proposal in February to add imported ore into the quota system, which sparked opposition from companies that rely on imports and were concerned they could lose access to feedstock, according to the two sources and an additional source with knowledge of the matter.
