The Arizona Section of ECS will be hosting a meeting with special guest speaker Professor Robert F. Savinell.

Date: January 26, 2014

Time: Networking and refreshments at 6:15 PM; Seminar begins at 7:00 PM

Place: University of Arizona
Tuscon, AZ 85721
Agave Room, 4th Floor of Student Union Building

Cost: Free to attend; $5 for light refreshments

Speaker: Professor Robert F. Savinell
George S. Dively Professor of Electrochemical Engineering at Case Western Reserve University
Professor Savinell is recognized as a leading authority on electrochemical energy storage and conversion. His research has been directed at fundamental science and engineering research for electrochemical systems and novel device design, development, and optimization. Dr. Savinell has over 100 publications and seven patents in the electrochemical field. He is a past chair of ECS’s Electrolytic and Electrochemical Engineering Division, a former editor of the Journal of The Electrochemical Society, and a Fellow of ECS.

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The aluminum-air battery has the potential to serve as a short-term power source for electric vehicles.
Image: Journal of The Electrochemical Society

A new long-life aluminum-air battery is set to resolve challenges in rechargeable energy storage technology, thanks to ECS member Ryohei Mori.

Mori’s development has yielded a new type of aluminum-air battery, which is rechargeable by refilling with either salt or fresh water.

The research is detailed in an open access article in the Journal of The Electrochemical Society, where Mori explains how he modified the structure of the previous aluminum-air battery to ensure a longer battery life.

Theoretically, metal-air technology can have very high energy densities, which makes it a promising candidate for next-generation batteries that could enable such things as long-range battery-electric vehicles.

However, the long-standing barrier of anode corrosion and byproduct accumulation have halted these batteries from achieving their full potential. Dr. Mori’s recently published paper, “Addition of Ceramic Barriers to Aluminum-Air batteries to Suppress By-product Formation on Electrodes,” details how to combat this issue.

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The OmniProcessor is the ultimate example of that old expression: one man’s trash is another man’s treasure.
Image: YouTube/Gates Notes

The Bill & Melinda Gates Foundation is working to turn poop into drinking water with this ingenious new machine.

As part of their effort to improve sanitation in poor countries, the Gates Foundation has helped give flight to an OmniProcessor that burns human waste to produce water and electricity.

How does it work? Check out the video to see the process.

But here’s the big question – why do we need to turn waste into drinking water and electricity?

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Toyota is looking to propel the future of the fuel cell vehicle with the recent announcement that they will be granting royalty-free use to thousands of their patents.

“I’m happy and extremely proud to announce to you today that Toyota will grant royalty-free use of all 5,680 of our fuel cell patents, including pending patents,” said Senior Vice President of Toyota’s Automotive Operations, Bob Carter, on January 5 at the Consumer Electronics Show (CES).

The patents are to be used by companies manufacturing and selling fuel cell vehicles. Carter stated that these patents – which are critical to the development and production of fuel cells vehicles – will be available through 2020.

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An aircraft with a parallel hybrid engine – the first ever to be able to recharge its batteries in flight – has been successfully tested in the UK, an important early step towards cleaner, low-carbon air travel.
Credit: University of Cambridge

The United Kingdom is taking an important step towards cleaner, low-carbon air travel with the first successfully tested airplane with a parallel hybrid-electric engine. The novel aircraft is the first of its kind due to the ability to recharge its batteries while in flight.

This development comes out of the University of Cambridge in conjunction with Boeing, where they have worked to successfully develop a parallel hybrid-electric propulsion system for an aircraft that will use up to 30 percent less fuel than a comparable plane with a petrol-only engine.

To create the plane, the researches used the same basic principals as in a hybrid car. The aircraft uses a 4-stroke piston engine and an electric motor/generator. When maximum power is required – i.e. during takeoff – the engine and electric motor work together to power the plane. Once cruise height is reached, the motor switches to generator mode to recharge its batteries.

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Collecting this energy is enough to power lights and other small devices for minutes at a time from a mere one hundred or so footfalls.
Credit: Pavegen

When we look at the kinetic energy that people produce from things such as footfalls or climbing steps, it just makes sense that we begin to move toward harnessing energy from human activity.

That is the mantra of the company Pavegen – the developer of power-generating systems for pavements, football fields, and even school corridors.

The technology for innovations such as this already exists, with the piezoelectric effect dating back more that 130 years.

Now, we have the ability to place these piezoelectric devices in unlikely places. When Pavegen applied this technology to a football field, they were able to produce up to 7 watts of energy with each step.

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The heterostructures is based on 2D atomic crystals for photovoltaic applications.
Image: University of Manchester

Researchers from the University of Manchester in conjunction with the National University of Singapore have discovered an exciting new development with the wonder material graphene.

The researchers have been able to combine graphene with other one-atom thick materials to create the next generation of solar cells and optoelectronic devices.

With this, they have been able to demonstrate how multi-layered heterostructures in a three-dimensional stack can produce an exciting physical phenomenon exploring new electronic devices.

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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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This achievement represents one of the highest photovoltaic research cell efficiencies achieved across all types of solar cells.
Credit: NREL (Click to enlarge)

Improvements in solar power are being developed all around the world, with scientist and researchers continuously attempting to apply electrochemistry and other sciences to solar cells in order to improve efficiency. Recently, the National Renewable Energy Laboratory (NREL) has reported one of the highest photovoltaic cell efficiencies achieved across all types of solar cells.

Researchers at the NREL have demonstrated a 45.7 percent conversion efficiency for a four-junction solar cell at 234 suns concentration.

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Tucker aims to develop transportation that is sustainable and fun to use.
Credit: Arizona State University

Hard-work and perseverance have paid off for The Electrochemical Society’s Telpriore “Greg” Tucker. From chemist, to mentor, to entrepreneur—the Arizona State University doctoral graduate aims to make an impact in renewable energy and transportation.

With his new degree in hand, Tucker plans to revisit his business plans for The Southwest Battery Bike Company, which focuses on developing electric bicycles that can provide a more affordable and greener source of transportation.

“I’ve always had an interest in transportation and how to make it more affordable and sustainable for the public,” Tucker says. “Since my degree focuses on batteries for renewable energy purposes, I began to see a lot of applications from my research. Some of the best jobs can spring from your hobby or projects that you enjoy doing.”

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