Menu

Blog

Archive for the ‘solar power’ category: Page 131

Apr 8, 2016

Quantum dots enhance light-to-current conversion in layered metal dichalcogenide semiconductors

Posted by in categories: computing, electronics, quantum physics, solar power, sustainability

Improving light-sensing devices with Q-Dots.


Harnessing the power of the sun and creating light-harvesting or light-sensing devices requires a material that both absorbs light efficiently and converts the energy to highly mobile electrical current. Finding the ideal mix of properties in a single material is a challenge, so scientists have been experimenting with ways to combine different materials to create “hybrids” with enhanced features.

In two just-published papers, scientists from the U.S. Department of Energy’s Brookhaven National Laboratory, Stony Brook University, and the University of Nebraska describe one such approach that combines the excellent light-harvesting properties of quantum dots with the tunable electrical conductivity of a layered tin disulfide semiconductor. The hybrid material exhibited enhanced light-harvesting properties through the absorption of light by the quantum dots and their energy transfer to tin disulfide, both in laboratory tests and when incorporated into electronic devices. The research paves the way for using these materials in optoelectronic applications such as energy-harvesting photovoltaics, light sensors, and light emitting diodes (LEDs).

Continue reading “Quantum dots enhance light-to-current conversion in layered metal dichalcogenide semiconductors” »

Apr 8, 2016

Student-designed ‘FemtoSats’ aim to bring cost of satellite deployment below $1,000

Posted by in categories: solar power, space, sustainability

Got a grand burning a hole in your pocket? You could get a new laptop — or you could send this tiny, palm-sized satellite to space. That’s what a team of engineers at Arizona State hope, anyway: their “FemtoSats” are meant to be as cheap a space-bound platform as has ever been devised.

At just 3cm per side and 35 grams (that’s about 1.2 inches and 0.077 pounds, dogs of the Imperial system), the SunCube 1F is the prototype FemtoSat. It’s powered by a salvaged scrap of solar panel (they don’t make them small enough off the shelf), the tiny unit includes propulsion, imaging, communication, and data collection.

Continue reading “Student-designed ‘FemtoSats’ aim to bring cost of satellite deployment below $1,000” »

Apr 7, 2016

Solar Cells Will be Made Obsolete

Posted by in categories: computing, nanotechnology, solar power, sustainability

Rectenna Naval Optical 150928122542_1_540x360
A new kind of nanoscale rectenna (half antenna and half rectifier) can convert solar and infrared into electricity,
plus be tuned to nearly any other frequency as a detector.

Right now efficiency is only one percent, but professor Baratunde Cola and colleagues at the Georgia Institute of Technology (Georgia Tech, Atlanta) convincingly argue that they can achieve 40 percent broad spectrum efficiency (double that of silicon and more even than multi-junction gallium arsenide) at a one-tenth of the cost of conventional solar cells (and with an upper limit of 90 percent efficiency for single wavelength conversion).

Continue reading “Solar Cells Will be Made Obsolete” »

Apr 5, 2016

Federal legislation to jumpstart space solar power

Posted by in categories: climatology, economics, food, government, law, nuclear energy, security, solar power, space, sustainability

The United States is transitioning from a primary reliance on fossil fuels to greater use of sustainable natural and nuclear energy sources. There are two reasons for this transition. The first reason is that the abnormally high and increasing level of atmospheric carbon dioxide has created scientific uncertainty and concern as to the detrimental impact this may have on the environment and, consequentially, human civilization. Almost certainly, this abnormal level is due to anthropogenic causes linked to the tremendous expansion in the human population since the early 1700s, the growth of human civilization (e.g., agriculture and industrialization), and the increasing use of fossil fuels. Although fossil fuels have enabled worldwide progress in elevating the standard of living, most of the world’s nations have reached the conclusion that the world should transition entirely to sustainable energy by 2100 (see “The Paris climate agreement and space solar power”, The Space Review, February 29, 2016). It is, however, very important to manage this transition carefully to avoid economic hardship or energy deprivation.

While the United States has large remaining fossil fuel resources, only some are technically recoverable with current safe, legal, and profitable extraction methods. The remaining known and yet-to-be-discovered domestic technically recoverable fossil fuels are inadequate to sustain US fossil fuel energy needs to the end of this century, especially given likely continued immigration-driven US population growth (see “US fossil fuel energy insecurity and space solar power”, The Space Review, March 7, 2016). While the United States has an ethical environmental obligation to end its use of fossil fuels by the end of the century, the reality of having inadequate oil and natural gas resources makes the urgency of transitioning successfully to new sustainable energy sources a clear matter of national energy security. This warrants federal government leadership and strong American private sector engagement.

Unfortunately, due to its large and growing population and per capita energy needs, the United States lacks sufficient suitable land to utilize terrestrial renewable energy to replace fossil fuels. (see “US terrestrial non-fossil fuel energy vs. space solar power”, The Space Review, March 14, 2016). While the United States will utilize terrestrial domestic renewable energy to the extent it is politically acceptable, many factors will likely limit their scale-up. The expansion of nuclear fission energy is also not a satisfactory approach, given the large number of reactors needed. These factors lead to the conclusion that only space-based sustainable energy, such as space solar power, will enable the United States to practically transition away from fossil fuels.

Read more

Apr 4, 2016

CT Cosmos to Set up $150m Solar Power Project in Plateau

Posted by in categories: government, solar power, sustainability

Good; more opportunity for the region.


Seriki Adinoyi in Jos.

Panyam community of Mangu local government area of Plateau State came up alive at the weekend as they came out enmasse to receive CT Cosmos Nigeria Limited, a subsidiary of Communication Towers Ltd, which has indicated interest in establishing a massive Solar plant power project of over $150 million in the community.

Continue reading “CT Cosmos to Set up $150m Solar Power Project in Plateau” »

Apr 4, 2016

Robotic in orbit assembly of massive sails and laser propulsion elements for fast travel anywhere in the solar system and beginner interstellar capability

Posted by in categories: robotics/AI, solar power, space travel, sustainability

Robotic in orbit assembly and laser propulsion could enable vast increases in space capability while not significantly changing the world civilization energy budget.

Robotic and additive manufacturing could enable massive frames and massive solar power arrays.

Continue reading “Robotic in orbit assembly of massive sails and laser propulsion elements for fast travel anywhere in the solar system and beginner interstellar capability” »

Mar 25, 2016

A Xerox Machine for Super Solar Panels

Posted by in categories: solar power, sustainability

Researchers at Xerox PARC are working on a way to cheaply print efficient solar cells at a large scale.

Read more

Mar 25, 2016

Move over batteries, Dye Solar Cells are coming

Posted by in categories: solar power, sustainability

New miniature sized dye solar cell technology developed by an Israeli company can be installed onto devices and charge them with indirect light, making batteries obsolete. Sharon Reich reports.

Read more

Mar 22, 2016

Giant floating solar panel

Posted by in categories: solar power, sustainability

This giant floating solar panel is saving a water company millions of dollars.

Read more

Mar 21, 2016

This Prototype Could Be The Future Of Low- Cost Solar Power

Posted by in categories: solar power, sustainability

A chemical compound named Perovskite could be the next big innovation in solar power technology. http://voc.tv/14JQHoo

Read more