Latesh crop production increases by about 40 % in new solar glasses

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Despite a sudden U -turn in the federal energy policy, the US innovation march continues. In the latest example, the US Startup UBQD has developed a new solar glass form that can help increase production capacity in greenhouses. If widely adopted in commercial use, new glasses have significant implications for the development of smart agricultural methods, including the emerging vertical farm industry as well as traditional greenhouse farming.

“Ubigro” solar glass and quantum dot solution

The new solar glass field was tested by California – Davis researchers, who published their searches in the journal. Media Today Stability Under the title in September, “Greenhouses in Green Houses, especially for the Claims and Climate Regulation, Slactic Quantum Dot Laminated Glass.

If you are wondering what quantum dot is, this is a good question. Also known as “artificial atoms” and “new lighting technology linups”, quantum dot initially appeared on the pages. Clean Technica For their application for LED lighting and active photovoltaic systems.

“Quantum Dots semi -conductor are small (nano) particles of substance that are extremely effective in connecting color and light.” “The features of a significantly high -performance photovolominosis in QD can be visible (bright), which has a range of widespread and invisible colors, which are manufactured by adjusting their size and synthesis.”

As Ubiqd notes, the UC-Davis study is the first person to assess the performance of quantum dots connected with inactive solar glasses. “These results prove that the sun can be inactive via QD -affected glass to supply more productive, flexible and sustainable food system,” UBQD CEO Hunter Mc Daniel, explains PhD.

https://www.youtube.com/watch?v=_yghzoo7dow

New Quantum Dot Solar Glass by Numbers

If the latest performance is a bull for other crops, the solar glass of UBQD passed the test with flying colors. The UC Davis team reported a long list of increasing the control crop. Throughout the entire period of winter rise, Latesh, which is grown under Uubigro Glass, received the following credit:

– Fresh biomass increased by 37.8 %. The plants were about 40 % heavy, which indicates significantly more edible production.

– The leaf area was added by 38.0 %. The area of ​​the larger leaf means high photosantic surface.

– The root length increased by 38.0 %. Deep roots improve water and nutrients, improve flexibility and shelf life.

-The performance of the use was increased by 41.0 %. Plants used sunlight more effectively, which contains more biomass per photon.

– The number of nutrients (N, P, K, MG, ZN, CU) was significantly raised. The crops were more nutritious, which had advanced nutrients.

– Spectral Red: The blue ratio increased by 61.0 %, with no significant loss. More red light was provided without sacrifice of light levels of use.

Researchers concluded, “These results indicate the ability to improve the greenhouse microckamate and support the preparation of flexible, winter weather crops, as a fantastic qd-glazing ability as an energy-free solution.”

“These results highlight a passionate path to climate -greenhouse envelopes that integrate photons with sustainable food and energy strategies,” he added for good measure measurements.

From solar glass to solar cells

Ubiqd is not letting the grass grow under its feet. Eric Moody, who is a firm’s sale and marketing VP, is already expecting a commercial scale. “Our film products are already producing strong results in commercial greenhouses around the world, and this new data improves our wider vision to add light-improvement technologies-like our upcoming glass innovations, to add our wider vision to add agriculture to pamine.”

In addition to the solar glass project, the UBIQD is also implementing its quantum dot technology in a thin film solar cell field through a supply agreement with US firm First Solar. Both firms announced the agreement in July. The UBQD noted in a press statement, “This cooperation between two US -based companies has come to light when country data centers, artificial intelligence (AI), and manufacturing seek to increase the ability to generate competitive electricity to meet demand.”

The first solar is applying technology to its bipolar solar modules, which also has some interesting implications for sustainable agriculture. Byafical solar modules harvest solar energy through their backs as well as their fronts. Unlike the traditional solar panel, which must be located at an angle for maximum performance, the Bifasal solar panel can be set up directly, which can work as a fence and other farm infrastructure in agricultural areas.

More solar energy for the US

Keep an eye on the use of non -form to popups as well. For example, the US branch of the German firm Next 2 Sun has borrowed two of its biifesty solar panels for an agricultural project in Vermont, and it is also in the growing number of US companies that offers a sleek, stylish panel for plastic privacy fence for residential use.

Next 2 Sun explained, “Next 2 Sun solar fence for private families, not only is able to generate enough electricity to meet the needs of a family household, but also offers low care and weather -free alternatives for hedges and fences.” Solar fences can also provide a task for properties where solar opportunities are limited to the roof state or from the roof size.

Solar glass is coming for your foam fuel

The field of transparent solar cells in the solar glass field is another angle. With transparent solar technology, glass -covered buildings can draw double duty as electrical stations, while inner places enable daylight (see more transparent solar background here).

It seems easy, but the devil is in detail. Transparent solar glass has arrived on the scene Clean Technica To showcase in terms of trade requests, with little to 15 years. However, signs of a progress have begun.

California firm keep an eye on the next energy technologies. In July, the company reported that it had installed a commercial solar glass fire at the headquarters in Santa Barbara. The installation includes six panels for a total of 100 square feet. This is not particularly dramatic size, but installation is important because it shows the first use of building integrated solar technology to deploy the firm’s organic photovoltaic coatings.

“Next suggest that visitors can see the smooth integration of solar technology in a standard trading age and observe itself on how the system produces power while maintaining transparency and design flexibility.