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#longi — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #longi, aggregated by home.social.

  1. Belgium – Longi cells hit the road ahead of US race

    Going back decades, the field of solar racing has served as the proving ground where module manufacturers test…
    #Belgium #BE #Europe #Europa #EU #België #belgien #Belgique #belgium #CAR #Longi #Nachrichten #Nieuws #Nouvelles #race #solar #solarmodules
    europesays.com/2986414/

  2. European Energy Storage Milestone: 1 GWh+ Projects Advance in Six Countries – News and Statistics

    May 2, 2026 Energy storage projects with a combined capacity exceeding 1GWh have moved forward in several European…
    #Europe #EU #1GWh #batterystorageprojects #BESS #energystorage #European #Finland #flower #Germany #GoldbeckSolar #Italy #longi #Netherlands #Poland #re:cap #Slovakia #SPP #Tavion
    europesays.com/europe/29193/

  3. 1GWh+ of BESS progress by re:cap, Flower, Goldbeck and others

    The project was developed by SMA Altenso, which will also deliver the full engineering, procurement and construction (EPC)…
    #Europe #EU #EnergyStorageEurope #epc #EuropeanUnion #financing #Finland #flower #Germany #Investment #Italy #longi #Netherlands #Poland #Sweden
    europesays.com/europe/28296/

  4. Norway logistics hub connects 7.6 MW of rooftop PV

    The 7.6 MW system, covering around 30,000 square metres of rooftop area, was connected to the grid in…
    #Norway #NO #Europe #Europa #EU #Longi #Noreg #Norge #norway #nyheter #projects #solarmodules #warehouse
    europesays.com/2890932/

  5. Der chinesische Hersteller #Longi hat mit einer neu entwickelten #Solarzelle mit hybridem verzahntem Rückkontakt einen Wirkungsgrad von 27,81 % erreicht.

    Das ist ein neuer Weltrekord für kristalline #Silizium-Solarzellen. Bestätigt wurde das Ergebnis vom Institut für #Solarenergieforschung Hameln.

    Die Verbesserung basiert auf Optimierungen in Zellarchitektur und Materialsystemen und soll die Leistungsdichte künftiger #Photovoltaik-Module weiter steigern.

    pv-magazine.de/2025/04/15/long

  6. Der chinesische Hersteller #Longi hat mit einer neu entwickelten #Solarzelle mit hybridem verzahntem Rückkontakt einen Wirkungsgrad von 27,81 % erreicht.

    Das ist ein neuer Weltrekord für kristalline #Silizium-Solarzellen. Bestätigt wurde das Ergebnis vom Institut für #Solarenergieforschung Hameln.

    Die Verbesserung basiert auf Optimierungen in Zellarchitektur und Materialsystemen und soll die Leistungsdichte künftiger #Photovoltaik-Module weiter steigern.

    pv-magazine.de/2025/04/15/long

  7. Der chinesische Hersteller #Longi hat mit einer neu entwickelten #Solarzelle mit hybridem verzahntem Rückkontakt einen Wirkungsgrad von 27,81 % erreicht.

    Das ist ein neuer Weltrekord für kristalline #Silizium-Solarzellen. Bestätigt wurde das Ergebnis vom Institut für #Solarenergieforschung Hameln.

    Die Verbesserung basiert auf Optimierungen in Zellarchitektur und Materialsystemen und soll die Leistungsdichte künftiger #Photovoltaik-Module weiter steigern.

    pv-magazine.de/2025/04/15/long

  8. Der chinesische Hersteller #Longi hat mit einer neu entwickelten #Solarzelle mit hybridem verzahntem Rückkontakt einen Wirkungsgrad von 27,81 % erreicht.

    Das ist ein neuer Weltrekord für kristalline #Silizium-Solarzellen. Bestätigt wurde das Ergebnis vom Institut für #Solarenergieforschung Hameln.

    Die Verbesserung basiert auf Optimierungen in Zellarchitektur und Materialsystemen und soll die Leistungsdichte künftiger #Photovoltaik-Module weiter steigern.

    pv-magazine.de/2025/04/15/long

  9. Der chinesische Hersteller #Longi hat mit einer neu entwickelten #Solarzelle mit hybridem verzahntem Rückkontakt einen Wirkungsgrad von 27,81 % erreicht.

    Das ist ein neuer Weltrekord für kristalline #Silizium-Solarzellen. Bestätigt wurde das Ergebnis vom Institut für #Solarenergieforschung Hameln.

    Die Verbesserung basiert auf Optimierungen in Zellarchitektur und Materialsystemen und soll die Leistungsdichte künftiger #Photovoltaik-Module weiter steigern.

    pv-magazine.de/2025/04/15/long

  10. Scientists link elusive human group to 150,000-year-old Chinese ‘dragon man’

    Evidence from the DNA traces left by #Denisovans shows they lived on the Tibetan plateau, ­probably ­travelled to the Philippines and Laos in south Asia and might have made their way to northern China more than 100,000 years ago. They interbred with modern humans.
    Their DNA, which was first found in samples from the Denisova cave in Siberia in 2010, provides most of our ­information about their existence. Only a jaw ­fragment, a few bits of bone and one or two teeth ­provide any evidence of their physical characteristics.

    But recently scientists have pinpointed a strong candidate for the species to which the Denisovans might have belonged.
    This is #Homo #longi
    – or “Dragon man”
    – from Harbin in north-east China.
    This key fossil is made up of an almost complete skull with a braincase as big as a modern human’s and a flat face with delicate cheekbones. Dating suggests it is at least 150,000 years old.
    “We now believe that the Denisovans were members of the Homo longi species,” said Prof Xijun Ni of the Chinese Academy of Sciences in Beijing, last week. “The latter is ­characterised by a broad nose, thick brow ridges over its eyes and large tooth sockets.”
    The possible Denisovan-Homo longi link is one of several recent developments by researchers working on these humans with whom Homo sapiens shared the planet for hundreds of thousands of years. It is thought they could have played a key role in our own evolution.

    Scientists in Tibet have discovered a Denisovan gene in local people, the result of interbreeding between the two species in the distant past.

    Crucially, this gene has been shown to help modern men and women survive at high altitudes.

    In addition, evidence to ­support the Denisovan-Homo longi link has also been traced to the Tibetan ­plateau, where scientists began studying a jawbone initially found in a remote cave 3,000 metres (10,000ft) above sea level by a Buddhist monk, who kept it as a relic.

    The bone was found not to come from a modern human. But only when researchers began to study the cave where the jawbone had been originally discovered did they find its ­sediments were rich in Denisovan DNA.

    In addition, it was found the fossil itself contained proteins that indicated Denisovan origins.
    theguardian.com/science/2024/m

  11. Scientists link elusive human group to 150,000-year-old Chinese ‘dragon man’

    Evidence from the DNA traces left by #Denisovans shows they lived on the Tibetan plateau, ­probably ­travelled to the Philippines and Laos in south Asia and might have made their way to northern China more than 100,000 years ago. They interbred with modern humans.
    Their DNA, which was first found in samples from the Denisova cave in Siberia in 2010, provides most of our ­information about their existence. Only a jaw ­fragment, a few bits of bone and one or two teeth ­provide any evidence of their physical characteristics.

    But recently scientists have pinpointed a strong candidate for the species to which the Denisovans might have belonged.
    This is #Homo #longi
    – or “Dragon man”
    – from Harbin in north-east China.
    This key fossil is made up of an almost complete skull with a braincase as big as a modern human’s and a flat face with delicate cheekbones. Dating suggests it is at least 150,000 years old.
    “We now believe that the Denisovans were members of the Homo longi species,” said Prof Xijun Ni of the Chinese Academy of Sciences in Beijing, last week. “The latter is ­characterised by a broad nose, thick brow ridges over its eyes and large tooth sockets.”
    The possible Denisovan-Homo longi link is one of several recent developments by researchers working on these humans with whom Homo sapiens shared the planet for hundreds of thousands of years. It is thought they could have played a key role in our own evolution.

    Scientists in Tibet have discovered a Denisovan gene in local people, the result of interbreeding between the two species in the distant past.

    Crucially, this gene has been shown to help modern men and women survive at high altitudes.

    In addition, evidence to ­support the Denisovan-Homo longi link has also been traced to the Tibetan ­plateau, where scientists began studying a jawbone initially found in a remote cave 3,000 metres (10,000ft) above sea level by a Buddhist monk, who kept it as a relic.

    The bone was found not to come from a modern human. But only when researchers began to study the cave where the jawbone had been originally discovered did they find its ­sediments were rich in Denisovan DNA.

    In addition, it was found the fossil itself contained proteins that indicated Denisovan origins.
    theguardian.com/science/2024/m

  12. Scientists link elusive human group to 150,000-year-old Chinese ‘dragon man’

    Evidence from the DNA traces left by #Denisovans shows they lived on the Tibetan plateau, ­probably ­travelled to the Philippines and Laos in south Asia and might have made their way to northern China more than 100,000 years ago. They interbred with modern humans.
    Their DNA, which was first found in samples from the Denisova cave in Siberia in 2010, provides most of our ­information about their existence. Only a jaw ­fragment, a few bits of bone and one or two teeth ­provide any evidence of their physical characteristics.

    But recently scientists have pinpointed a strong candidate for the species to which the Denisovans might have belonged.
    This is #Homo #longi
    – or “Dragon man”
    – from Harbin in north-east China.
    This key fossil is made up of an almost complete skull with a braincase as big as a modern human’s and a flat face with delicate cheekbones. Dating suggests it is at least 150,000 years old.
    “We now believe that the Denisovans were members of the Homo longi species,” said Prof Xijun Ni of the Chinese Academy of Sciences in Beijing, last week. “The latter is ­characterised by a broad nose, thick brow ridges over its eyes and large tooth sockets.”
    The possible Denisovan-Homo longi link is one of several recent developments by researchers working on these humans with whom Homo sapiens shared the planet for hundreds of thousands of years. It is thought they could have played a key role in our own evolution.

    Scientists in Tibet have discovered a Denisovan gene in local people, the result of interbreeding between the two species in the distant past.

    Crucially, this gene has been shown to help modern men and women survive at high altitudes.

    In addition, evidence to ­support the Denisovan-Homo longi link has also been traced to the Tibetan ­plateau, where scientists began studying a jawbone initially found in a remote cave 3,000 metres (10,000ft) above sea level by a Buddhist monk, who kept it as a relic.

    The bone was found not to come from a modern human. But only when researchers began to study the cave where the jawbone had been originally discovered did they find its ­sediments were rich in Denisovan DNA.

    In addition, it was found the fossil itself contained proteins that indicated Denisovan origins.
    theguardian.com/science/2024/m

  13. Scientists link elusive human group to 150,000-year-old Chinese ‘dragon man’

    Evidence from the DNA traces left by #Denisovans shows they lived on the Tibetan plateau, ­probably ­travelled to the Philippines and Laos in south Asia and might have made their way to northern China more than 100,000 years ago. They interbred with modern humans.
    Their DNA, which was first found in samples from the Denisova cave in Siberia in 2010, provides most of our ­information about their existence. Only a jaw ­fragment, a few bits of bone and one or two teeth ­provide any evidence of their physical characteristics.

    But recently scientists have pinpointed a strong candidate for the species to which the Denisovans might have belonged.
    This is #Homo #longi
    – or “Dragon man”
    – from Harbin in north-east China.
    This key fossil is made up of an almost complete skull with a braincase as big as a modern human’s and a flat face with delicate cheekbones. Dating suggests it is at least 150,000 years old.
    “We now believe that the Denisovans were members of the Homo longi species,” said Prof Xijun Ni of the Chinese Academy of Sciences in Beijing, last week. “The latter is ­characterised by a broad nose, thick brow ridges over its eyes and large tooth sockets.”
    The possible Denisovan-Homo longi link is one of several recent developments by researchers working on these humans with whom Homo sapiens shared the planet for hundreds of thousands of years. It is thought they could have played a key role in our own evolution.

    Scientists in Tibet have discovered a Denisovan gene in local people, the result of interbreeding between the two species in the distant past.

    Crucially, this gene has been shown to help modern men and women survive at high altitudes.

    In addition, evidence to ­support the Denisovan-Homo longi link has also been traced to the Tibetan ­plateau, where scientists began studying a jawbone initially found in a remote cave 3,000 metres (10,000ft) above sea level by a Buddhist monk, who kept it as a relic.

    The bone was found not to come from a modern human. But only when researchers began to study the cave where the jawbone had been originally discovered did they find its ­sediments were rich in Denisovan DNA.

    In addition, it was found the fossil itself contained proteins that indicated Denisovan origins.
    theguardian.com/science/2024/m

  14. Scientists link elusive human group to 150,000-year-old Chinese ‘dragon man’

    Evidence from the DNA traces left by #Denisovans shows they lived on the Tibetan plateau, ­probably ­travelled to the Philippines and Laos in south Asia and might have made their way to northern China more than 100,000 years ago. They interbred with modern humans.
    Their DNA, which was first found in samples from the Denisova cave in Siberia in 2010, provides most of our ­information about their existence. Only a jaw ­fragment, a few bits of bone and one or two teeth ­provide any evidence of their physical characteristics.

    But recently scientists have pinpointed a strong candidate for the species to which the Denisovans might have belonged.
    This is #Homo #longi
    – or “Dragon man”
    – from Harbin in north-east China.
    This key fossil is made up of an almost complete skull with a braincase as big as a modern human’s and a flat face with delicate cheekbones. Dating suggests it is at least 150,000 years old.
    “We now believe that the Denisovans were members of the Homo longi species,” said Prof Xijun Ni of the Chinese Academy of Sciences in Beijing, last week. “The latter is ­characterised by a broad nose, thick brow ridges over its eyes and large tooth sockets.”
    The possible Denisovan-Homo longi link is one of several recent developments by researchers working on these humans with whom Homo sapiens shared the planet for hundreds of thousands of years. It is thought they could have played a key role in our own evolution.

    Scientists in Tibet have discovered a Denisovan gene in local people, the result of interbreeding between the two species in the distant past.

    Crucially, this gene has been shown to help modern men and women survive at high altitudes.

    In addition, evidence to ­support the Denisovan-Homo longi link has also been traced to the Tibetan ­plateau, where scientists began studying a jawbone initially found in a remote cave 3,000 metres (10,000ft) above sea level by a Buddhist monk, who kept it as a relic.

    The bone was found not to come from a modern human. But only when researchers began to study the cave where the jawbone had been originally discovered did they find its ­sediments were rich in Denisovan DNA.

    In addition, it was found the fossil itself contained proteins that indicated Denisovan origins.
    theguardian.com/science/2024/m

  15. "Solar technology firm #LONGi has set a new world record for silicon-perovskite tandem #ColarCells by reaching 33.9 percent efficiency."

    interestingengineering.com/inn

  16. "Solar technology firm #LONGi has set a new world record for silicon-perovskite tandem #ColarCells by reaching 33.9 percent efficiency."

    interestingengineering.com/inn

  17. "Solar technology firm #LONGi has set a new world record for silicon-perovskite tandem #ColarCells by reaching 33.9 percent efficiency."

    interestingengineering.com/inn

  18. "Solar technology firm #LONGi has set a new world record for silicon-perovskite tandem #ColarCells by reaching 33.9 percent efficiency."

    interestingengineering.com/inn

  19. "Solar technology firm #LONGi has set a new world record for silicon-perovskite tandem #ColarCells by reaching 33.9 percent efficiency."

    interestingengineering.com/inn

  20. #LONGi has crossed the theoretical limit of 33.7 percent efficiency for single junction #SolarCells with its tandem solar cell design. interestingengineering.com/inn

  21. #LONGi has crossed the theoretical limit of 33.7 percent efficiency for single junction #SolarCells with its tandem solar cell design. interestingengineering.com/inn

  22. #LONGi has crossed the theoretical limit of 33.7 percent efficiency for single junction #SolarCells with its tandem solar cell design. interestingengineering.com/inn

  23. #LONGi has crossed the theoretical limit of 33.7 percent efficiency for single junction #SolarCells with its tandem solar cell design. interestingengineering.com/inn

  24. #LONGi has crossed the theoretical limit of 33.7 percent efficiency for single junction #SolarCells with its tandem solar cell design. interestingengineering.com/inn