Bella et al. show that coating the cells with a water - proof fluorinated polymer that contains pigments to absorb ultraviolet light and re-emit it in the visible range can
boost cell efficiency and limit photodegradation.
Not exact matches
The
boosted genes had three main beneficial effects: improving the
efficiency of mitochondria, the powerhouse of
cells;
boosting insulin production, which improves control of blood sugar; and preventing the depletion of telomeres, caps on chromosomes that help to keep DNA stable and so prevent
cells wearing out and ageing.
The
boosted genes had three main effects: improving cellular energy
efficiency; upping insulin production, which improves control of blood sugar; and preventing the breakdown of caps on chromosomes that help prevent
cells wearing out and ageing.
It absorbs sunlight in the red and infrared parts of the spectrum and could be harnessed to
boost the
efficiency of solar
cells.
If the lead - based particles work inside solar
cells as well as they do in the lab, they could
boost the solar conversion
efficiency from a best of about 32 % today to perhaps as much as 66 %, enough to slash the cost of solar power.
The scientists have devised a new manufacturing technique that could
boost the
efficiency of an inexpensive type of solar
cell by up to 50 %, making the technology an economically feasible alternative to fossil fuels in the search for sustainable energy.
The luminescent photopolymers re-emit ultraviolet light in the visible range,
boosting perovskite solar
cells efficiency to nearly 19 % under standard illumination.
Using technology borrowed from lasers, they have developed a low - cost solar concentrator that collects sunlight from a large area and focuses it onto a much smaller area,
boosting the
efficiency of existing solar
cells by 15 to 20 percent.
«Engineers invent transparent coating that cools solar
cells to
boost efficiency: The quandary: The hotter solar
cells get, the less efficiently they convert sunlight to electricity; The fix: A new transparent overlay allows light to hit the
cells while shunting heat away.»
But additional research presented at the meeting may
boost their
efficiency: teams from Tokyo University of Science and Notre Dame both revealed new types of dyes that could extend the spectrum of light captured by such
cells into the infrared range.
Using high - performance computing and genetic engineering to
boost the photosynthetic
efficiency of plants offers the best hope of increasing crop yields enough to feed a planet expected to have 9.5 billion people on it by 2050, researchers report in the journal
Cell.
That's because the gas can be used to make several of the layers in a silicon photovoltaic — from the top of the
cell where it is used to deposit a layer of silicon nitride that ensures that all sunlight is absorbed, to the bottom where it can be used to deposit another layer that helps reflect back any missed photons of sunlight,
boosting the
efficiency of the
cell at converting light into electricity.
«Finding a way to
boost efficiency of CIGS solar
cells: Immersion of zinc - based buffer layer in ammonia water doubles conversion
efficiency.»
Scientists have found a way to engineer the atomic - scale chemical properties of a water - splitting catalyst for integration with a solar
cell, and the result is a big
boost to the stability and
efficiency of artificial photosynthesis.
Before they can power your car, hydrogen fuel
cells need an
efficiency boost.
DMAE is used for treating attention deficit disorder (ADD), enhancing memory and mood,
boosting cognitive function, treating Alzheimer's disease, increasing IQ and physical energy, improving athletic performance, delaying aging, improving red blood
cell function, improving muscle reflex and increasing oxygen
efficiency, extending life span, treating autism, and treating tardive dyskinesia.
A simple potassium solution could
boost the
efficiency of next - generation solar
cells, by enabling them to convert more sunlight into electricity.
A long sought - after «nanograss» structure promises to significantly
boost the
efficiency of organic solar
cells by capturing light more efficiently while also allowing the use of cheaper, lower - grade materials.
New materials technology has
boosted the power conversion
efficiency of cheap next - generation solar
cells.
Triple junction
cells are more expensive than silicon - based PV, but when forced cooling was added,
boosting the already high
efficiency even further, the LCOE was reduced.
Scientists have found a way to engineer the atomic - scale chemical properties of a water - splitting catalyst for integration with a solar
cell, and the result is a big
boost to the stability and
efficiency of artificial photosynthesis.
More on Solar Panel
Efficiency: 19.9 %: New Thin Film Solar
Efficiency Record Day4 Energy Solar Panel Breakthrough: 25 % Cheaper, on Sale Within 18 Months 15 Photovoltaics Solar Power Innovations You Must See Coating Solar
Cells to
Boost their Lifespan
Earlier research discovered that their oxygen - moving red blood
cells came with an unique
efficiency -
boosting hemoglobin.
Via MIT via Daily Tech More on MIT Inventions MIT: Move Over Batteries, Here Come the Nanotube - Enhanced Capacitors MIT Solar Concentrator Improves Solar
Cell Efficiency and Design Options A Behind the Scenes Look at MIT's Algae Photobioreactor (VIDEO) MIT
Boosts Methanol Fuel
Cells Efficiency by 50 %
Millions of solar panels around the world are made using cadmium chloride and for good reason — it's great at
boosting the conversion
efficiency of solar
cells.