PV Hybrid

A research team aims to make a battery and solar cell hybrid out of two single systems.
Image: Lunghammer – TU Graz

People across the globe are looking toward renewable solutions to change the landscape of energy. But what happens when the sun goes down and the wind stops blowing? In order to guarantee green energy that is consistent, reliable energy storage systems are critical.

“Currently, single systems of photovoltaic cells which are connected together — mostly lead-based batteries and vast amounts of cable — are in use,” said Ilie Hanzu, TU Graz professor and past member of ECS. “We want to make a battery and solar cell hybrid out of two single systems which is not only able to convert electrical energy, but also store it.”

The idea of a battery and solar cell hybrid is completely novel scientific territory. With this project, entitled SolaBat, the team hopes to develop a product that has commercial applications. For this, the scientists will have to develop the perfect combination of functional materials.

“In the hybrid system, high-performance materials share their tasks in the solar cell and in the battery,” Hanzu said. “We need materials that reliably fulfill their respective tasks and that are also electrochemically compatible with other materials so that they work together in one device.”

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Do you want to be forever externalized? Then look no further than this new quartz coin that can store the history of humankind for 14 billion years.

As if the previous breakthrough of quartz glass storage that yielded a self-life of 300 million years wasn’t enough, the new research take nanotechnology to a whole new level.

To understand exactly how long 14 million years is, check out these stats via Futurism:

  • Age of Earth: 4.534 billion years
  • Age of the Universe: 13.82 billion years

The research comes out of Southampton University, where the group has essentially developed a way to fit on just one sliver of nanostructured quartz 350TB of information.

This form Futurism:

The technique uses femtosecond laser pulses to write data in the 3D structure of quartz at the nanoscale. The pulses create three layers of nanostructred dots, each just microns above the other. The changes in the structure can be read by interrogating the sample with another pulse of light and recording the orientation of the waves after they’ve passed through.

Read the full article.

At the very least, this development in 5D storage will change the way we archive historical information.

Member Spotlight – Stephen Harris

X-ray absorption spectra, interpreted using first-principles electronic structure calculations, provide insight into the solvation of the lithium ion in propylene carbonate.Image: Rich Saykally, Berkeley Labs

X-ray absorption spectra, interpreted using first-principles electronic structure calculations, provide insight into the solvation of the lithium ion in propylene carbonate.
Image: Rich Saykally, Berkeley Labs

The Electrochemical Society’s Stephen Harris, along with a team of researchers from  Berkeley Lab, have found a possible avenue to a better electrolyte for lithium-ion batteries.

Harris – an expert on lithium-ion batteries and chemist at Berkeley Lab’s Materials Science Division – believes that he and his team have unveiled something that could lead to applying lithium-ion batteries to large-scale energy storage.

Researchers around the world know that in order for lithium-ion batteries to store electrical energy for the gird or power electric cars, they must be improved. The team at Berkeley decided to take on this challenge and found surprising results in the first X-ray absorption spectroscopy study of a model lithium electrode, which has provided a better understanding of the liquid electrolyte.

Previous simulations have predicted a tetrahedral solvation structure for the lithium-ion electrolyte, but the new study yields different results.

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First Solar-Powered Bike Lane in Netherlands

SolaRoad coverts sunlight on the road surface into electricity: the road network works as an inexhaustible source of green power.Credit: SolaRoad

SolaRoad converts sunlight on the road surface into electricity: the road network works as an inexhaustible source of green power.
Credit: SolaRoad

A solar-powered cycle path – called SolaRoad – has been unveiled in the Netherlands. The path can generate enough electricity to power three households, reports BBC.

The new path has been installed in Kormmenie, which is 25 kilometers from Amsterdam. While the path is currently 70 meters long, it will be extended to 100 meters by 2016.

Dr. Sten de Wit from SolaRoad believes that this is just the beginning for solar-powered paths. Dr. de Wit foresees solar roads eventually being used to power the electric vehicles that use them, similar to Dutch developer Heijmans and designer Daan Roosegaard in their “smart highway.”

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Member Spotlight – Chanyuan Liu

Chanyuan Liu

Chanyuan Liu, ECS member and Ph.D. student at the University of Maryland, is the lead author on the nanopore study.
Credit: University of Maryland

The Electrochemical Society’s Chanyuan Liu, along with a team of University of Maryland researchers, believe they have developed a structure that could bring about the ultimate miniaturization of energy storage components.

The tiny structure, known as the nanopore, includes all the components of a battery and can be fully charged in 12 minutes and recharged thousands of times.

This from University of Maryland:

The structure is called a nanopore: a tiny hole in a ceramic sheet that holds electrolyte to carry the electrical charge between nanotube electrodes at either end. The existing device is a test, but the bitsy battery performs well.

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Norwegian entrepreneur, Jostein Eikeland, is finally unveiling the development his has been working on in secret for the past decade in hopes to jolt the world of energy storage.

Eikeland and his company Alevo plan to reveal a battery that will last longer and cost far less than the current rival technologies. To do this, they have developed a technology that is to store excess electricity generated by power plants.

This from Reuters:

The company has created what it calls GridBanks, which are shipping containers full of thousands of battery cells. Each container can deliver 2 megawatts of power, enough to power up to 1,300 homes for an hour. The batteries use lithium iron phosphate and graphite as active materials and an inorganic electrolyte – what Eikeland called the company’s “secret sauce” – that extends longevity and reduces the risk of burning. They can be charged and discharged over 40,000 times, the company said.

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