mPower Technology’s DragonSCALES Solar Cells to Launch on Sparkwing In-Orbit Demonstrator with Momentus’ Vigoride Transfer Vehicle

ALBUQUERQUE, N.M., Oct. 14, 2020 /PRNewswire/ — Innovative solar technology company, mPower Technology, today announced that its DragonSCALES™ solar cell prototype has completed integration and testing on a Sparkwing in-orbit solar array technology demonstrator in preparation for inclusion on Momentus’ Vigoride transfer vehicle launch taking place in the fourth quarter of 2020.

DragonSCALES was developed to provide a low-cost, voltage-adjustable, high packing factor and lightweight solar power module that streamlines panel assembly and is designed for the needs of commercial LEO (low earth orbit) satellite constellations.

The Sparkwing team has introduced a groundbreaking new approach towards low cost, fast-delivery solar arrays for smallsats by offering a catalogue approach for standardized solar array models, similar to the automotive industry. The team is interested in mPower’s solar cell technology because of its potential to offer a unique combination of cost and performance benefits for next-gen solar arrays.

DragonSCALES enable disruptive, new

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Solar the new ‘king of electricity’ as renewables make up bigger slice of supply: IEA

PARIS (Reuters) – Solar output is expected to lead a surge in renewable power supply in the next decade, the International Energy Agency said, with renewables seen accounting for 80% of growth in global electricity generation under current conditions.

FILE PHOTO: A photovoltaic solar panel farm is seen in Porto Feliz, Sao Paulo state, Brazil February 13, 2020. REUTERS/Amanda Perobelli/File Photo

In its annual World Energy Outlook on Tuesday, the IEA said in its central scenario – which reflects policy intentions and targets already announced – renewables are expected to overtake coal as the primary means of producing electricity by 2025.

The combined share of solar photovoltaic (PV) and wind in global generation will rise to almost 30% in 2030 from 8% in 2019, it said, with solar PV capacity growing by an average 12% a year.

“I see solar becoming the new king of the world’s electricity markets,” IEA

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Aroostook County, Maine, is home to the largest 3D model of the solar system in the Western Hemisphere

Aroostook County, Maine, is home to the largest 3D model of the solar system in the Western Hemisphere

US News and World Report recently named Aroostook’s Maine School of Science and Mathematics one of the best high schools in the country and if this has your inner science nerd excited, watch a local scientist lead us on a tour of the solar system.


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MATHEMATICS HELPS IT SHINE. >> MORE FROM THE JUST HOW FAR IS IT FILE. FOLKS LIVING IN PRESQUE ISLE, AROOSTOOK’S BIGGEST TOWN, ARE FARTHER NORTH THAN HALF OF ALL CANADIANS, THE MAJORITY OF WHOM LIVE ALONG CANADA’S SOUTHERN BORDER. A PUBLIC HIGH SCHOOL WOULD SEEM AN UNLIKELY CANDIDATE FOR NATIONAL ACCLAIM. MAIN SCHOOL OF SCIENCE AND MATHEMATICS. RANKED THE SECOND BEST PUBLIC HIGH SCHOOL IN THE COUNTRY BY U.S. NEWS & WORLD REPORT. >> YOU’VE GOT

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Solar the new ‘king of electricity’ as renewables make up bigger slice of supply

By Forrest Crellin

PARIS (Reuters) – Solar output is expected to lead a surge in renewable power supply in the next decade, the International Energy Agency said, with renewables seen accounting for 80% of growth in global electricity generation under current conditions.

In its annual World Energy Outlook on Tuesday, the IEA said in its central scenario – which reflects policy intentions and targets already announced – renewables are expected to overtake coal as the primary means of producing electricity by 2025.

The combined share of solar photovoltaic (PV) and wind in global generation will rise to almost 30% in 2030 from 8% in 2019, it said, with solar PV capacity growing by an average 12% a year.

“I see solar becoming the new king of the world’s electricity markets,” IEA Executive Director Fatih Birol said. “Based on today’s policy settings, it is on track to set new records for

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Pure Harvest Corporate Group Announces the Acquisition of Solar Cultivation Technologies Assets and Intellectual Property

Denver, CO – ( NewMediaWire ) – October 09, 2020 – Pure Harvest Corporate Group, Inc. (OTC: PHCG), an emerging cannabis and hemp-CBD holding company, is pleased to announce it has acquired all of the assets of Solar Cultivation Technologies, Inc. (“SCT”), a Denver-based solar company focused on bringing solar to the cannabis industry in an effort to minimize the industry’s carbon footprint. This acquisition will allow PHCG to implement SCT’s solar, storage, and intelligent distribution technology throughout its operations in addition to providing these technologies to other operators in the cannabis industry.

“We are extremely excited to acquire SCT’s assets and technology and are confident that this acquisition will position PHCG to become an environmental leader within the cannabis space,” said Matthew Gregarek, CEO of Pure Harvest Corporate Group. “We understand that the industry’s carbon footprint is a tremendous issue and we believe that we now have the tools

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Designing solar panels in checkerboard lines increases their ability to absorb light by 125%, a new study says — ScienceDaily

Designing solar panels in checkerboard lines increases their ability to absorb light by 125 per cent, a new study says.

Researchers say the breakthrough could lead to the production of thinner, lighter and more flexible solar panels that could be used to power more homes and be used in a wider range of products.

The study — led by researchers from the University of York and conducted in partnership with NOVA University of Lisbon (CENIMAT-i3N) — investigated how different surface designs impacted on the absorption of sunlight in solar cells, which put together form solar panels.

Scientists found that the checkerboard design improved diffraction, which enhanced the probability of light being absorbed which is then used to create electricity.

The renewable energy sector is constantly looking for new ways to boost the light absorption of solar cells in lightweight materials that can be used in products from roof tiles to

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Aptos Solar Technology’s DNA Modules Pass Extended Reliability Testing

Aptos Solar Technology, a supplier of high-performance solar modules, announces a successful completion of accelerated environmental tests performed by Renewable Energy Testing Center (RETC). The data revealed from testing confirms the reliability of Aptos Solar Technology’s DNATM modules for extreme weather conditions over an extended period of time.

As a leader in defining quality standards for renewable energy products, RETC provides a rigorous series of tests to ensure the durability of solar modules. Achieving recognition by RETC, in addition to holding standard UL & IEC certifications, makes the DNATM module by Aptos Solar Technology a competitive choice for those seeking durability in module performance.

“A high-quality PV module not only demonstrates high performance at standard test conditions but also performs well in real-world conditions over its intended service life. Aptos has shown a continued commitment to module quality and performance by diligently testing their products and ensuring their

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Submit your Proposal to the 50th Annual National Solar Conference

Submit your Proposal to the 50th Annual National Solar Conference

PR Newswire

BOULDER, Colo., Oct. 7, 2020

SOLAR 2021: Empowering a Sustainable Future

August 3-6, 2021 | Boulder, CO | University of Colorado Boulder

BOULDER, Colo., Oct. 7, 2020 /PRNewswire/ — The American Solar Energy Society (ASES) has opened the Call for Participation for their 50th Annual National Solar Conference, SOLAR 2021. This conference is focused on the  theme of “Empowering a Sustainable Future,” highlighting innovations and advancements in renewable energy technology and its equitable adoption. SOLAR 2021 promises to cover the most important and empowering content to drastically reduce carbon emissions now.

Submit to the Call for Participation for SOLAR 2021: Empowering a Sustainable Future by January 15, 2021. The 50th Annual National Solar Conference will be in Boulder, CO at the University of Colorado, Boulder August 3-6, 2021. Submit now at ases.org/conference. Interested in sponsoring or partnering on the event? Email conference@ases.org. #SOLAR2021Boulder
Submit to the Call for Participation for SOLAR 2021: Empowering a Sustainable Future by January 15, 2021. The 50th Annual National Solar Conference will be in Boulder, CO at the University of Colorado, Boulder August 3-6, 2021. Submit now at ases.org/conference. Interested in sponsoring or
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2019 was the second largest year ever for corporate solar investments

Throughout 2019, tech companies such as Apple and Facebook, retailers such as Walmart and Target, and other corporations from real estate companies to banks installed a combined 1,283 megawatts of new commercial solar capacity in the United States—enough to power more than 243,000 homes.

That figure comes from the Solar Energy Industries Association’s latest Solar Means Business report. After 2017, 2019 was the second largest year on record for corporate solar investments (corporations installed 1,368 megawatts of solar capacity in 2017). U.S. corporations have invested in a cumulative total of 8,300 megawatts of solar power.

SEIA’s annual report tracks both on-site (solar panels on the roof of your local Walmart or Target) and off-site (when a company gets its energy from a separate solar farm) commercial solar installations. Though slightly behind 2017 in terms of overall added solar capacity, 2019 was a record year for on-site solar installations, with 845

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Team extracts more energy from sunlight with advanced solar panels — ScienceDaily

Researchers working to maximize solar panel efficiency said layering advanced materials atop traditional silicon is a promising path to eke more energy out of sunlight. A new study shows that by using a precisely controlled fabrication process, researchers can produce multilayered solar panels with the potential to be 1.5 times more efficient than traditional silicon panels.

The results of the study led by University of Illinois Urbana-Champaign engineer Minjoo Larry Lee are published in the journal Cell Reports Physical Sciences.

“Silicon solar panels are prevalent because they are affordable and can convert a little over 20% of the sun’s light into usable electricity,” said Lee, a professor of electrical and computer engineering and Holonyak Micro and Nanotechnology Lab affiliate. “However, just like silicon computer chips, silicon solar cells are reaching the limit of their abilities, so finding a way to increase efficiency is attractive to energy providers and consumers.”

Lee’s

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