Honoring Veterans

ECS Past Presidents

ECS past presidents who were involved with the Manhattan Project. Clockwise starting at the top left: Lyle I. Gilbertson, Walter J. Hamer, Norman Hackerman, Harold J. Read

Here in the home office we are not just honoring U.S. Veterans today. As a society with international membership, we are thinking about the men and women who have served their countries around the world.

We couldn’t help but look into how electrochemistry and solid state science might have shaped a soldier’s life.

It turns out, when you are working for an organization that has been around since 1902 and that cuts across so much of our everyday lives, you have enough material to write a book on any one subject.

Here are just a few nuggets:

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Smart Streets: The Highway Is Getting Brighter

The painted road markings are said to be able to glow up to eight hours in the dark.Credit: Roosegaarde

The painted road markings are said to be able to glow up to eight hours in the dark.
Credit: Roosegaarde

There has been a great deal of debate and innovation in smart cars recently, but why just stop at the car? Why not make a smart highway?

At least that’s the question Dutch developer Heijmans and designer Daan Roosegaard are asking. Since 2012 the duo have been talking about and drumming up game plans for innovative designs that would improve road sustainability, safety, and perception.

These ideas include: electric priority lane, which would allow electric cars to charge themselves while driving; dynamic paint, which would glow or become transparent upon sensing temperature in order to let you know road conditions; and interactive light, which would be controlled by sensors to active only when traffic approaches in order to create sustainable road light.

But the company’s main, and most tangible, development is their glow-in-the-dark lining.

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The ECS Journal of Solid State Science and Technology (JSS) is one of the newest peer-reviewed journals from ECS launched in 2012.

The ECS Journal of Solid State Science and Technology (JSS) is one of the newest peer-reviewed journals from ECS launched in 2012.

Atomic Layer Etch (ALEt) and Atomic Layer Clean (ALC) are emerging as enabling technologies for sub 10nm technology nodes. At these scales performance will be extremely sensitive to process variation.

Atomic layer processes are the most promising path to deliver the precision needed. However, many areas of ALEt and ALC are in need of improved fundamental understanding and process development. This focus issue will cover state-of-the-art efforts that address a variety of approaches to ALEt and ALC.

Topics of interest include but are not limited to:

  • Surface reaction chemistry and its impact on selectivity
  • Plasma ion energy distribution and control methods
  • Novel plasma sources and potential application to ALEt & ALC
  • Innovative approaches to atomic layer material removal
  • Novel device applications of ALEt & ALC
  • Process chamber design considerations
  • Advanced delivery of chemicals to processing chambers
  • Metrology and control of ALEt & ALC
  • Device performance impact
  • Synthesis of new chemistries for ALEt & ALC application
  • Damage free surface defect removal
  • Process and discharge modeling

Find out more!

Deadline for submission of manuscripts is December 17, 2014.

Please submit manuscripts here.

Member Spotlight – Shelley Minteer

ECS's Shelley Minteer has developed a fuel cell that can convert jet fuel to electricity at room temperature without igniting the fuel.Credit: Dan Hixson/University of Utah College of Engineering

ECS’s Shelley Minteer has developed a fuel cell that can convert jet fuel to electricity at room temperature without igniting the fuel.
Credit: Dan Hixson/University of Utah College of Engineering

The Electrochemical Society’s Shelley Minteer and her team of engineers at The University of Utah have developed the first room-temperature fuel cell that uses enzymes to help jet fuel produce electricity without need to ignite the fuel.

The new fuel cells will be able to be used to power portable electronics, off-grid power, and sensors.

The study was published in the American Chemical Society journal ACS Catalysis with Minteer as the senior author.

“The major advance in this research is the ability to use Jet Propellant-8 directly in a fuel cell without having to remove sulfur impurities or operate at very high temperature,” says Minteer. “This work shows that JP-8 and probably others can be used as fuels for low-temperature fuel cells with the right catalysts.”

The standard technique for converting jet fuel to electricity is both difficult, due to the sulfur content, and inefficient, with only 30 percent of the fuel converted to electricity under the best conditions.

This from The University of Utah:

To overcome these constraints, the Utah researchers used JP-8 in an enzymatic fuel cell, which uses JP-8 for fuel and enzymes as catalysts. Enzymes are proteins that can act as catalysts by speeding up chemical reactions. These fuel cells can operate at room temperature and can tolerate sulfur.

Read the full article here.

Minteer is a valued member of ECS and is on the editorial board of the Journal of The Electrochemical Society and ECS Electrochemistry Letters – along with being a past chair of the Physical and Analytical Electrochemistry Division. You can also read her published research in our Digital Library.

Make sure to sign up for our e-Alerts so you don’t miss the newest, cutting-edge research!

New Coating to Make Batteries Safer

At left, a typical button battery; at right, a button battery coated with quantum tunneling composite (QTC).Credit: Bryan Laulicht/MIT

At left, a typical button battery; at right, a button battery coated with quantum tunneling composite (QTC).
Credit: Bryan Laulicht/MIT

We’ve heard a lot about innovation and improvements in the field of battery recently, but safety seems to have been put on the back-burner in lieu of creating a more powerful battery. This issue has now been addressed through funding from the National Institutes of Health in order to make technological breakthroughs in safety innovations for batteries.

According to the National Capital Poison Center, more than 3,500 people of all ages swallow button batteries every year in the United States. In order to combat the permanent injury that this could cause, researchers from MIT, Brigham and Women’s Hospital, and Massachusetts General Hospital have come together to create a coating that prevents batteries from conducing electricity after being swallowed – thereby causing no damage to the gastrointestinal tract.

Prior to this innovation, once a battery was swallowed, it would start to interact with the saliva and create an electric current. This current produces hydroxide, which causes damages to tissue. If not treated, this can cause serious injury within a few hours.

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ECS President Paul Kohl presented one of the Society's esteemed awards at the 2014 ECS and SMEQ Joint International Meeting.

ECS President Paul Kohl presented one of the Society’s esteemed awards at the 2014 ECS and SMEQ Joint International Meeting.

The Canada Section of The Electrochemical Society is currently seeking nominations for one of its prestigious awards.

W. Lash Miller Award

The Award has been created to honor the memory of W. Lash Miller, an eminent Canadian chemist. He was the Head of the Department of Chemistry at the University of Toronto and President of The Electrochemical Society in 1912. Lash Miller was one of the first proponents of Gibbsian thermodynamics in North America.

The W. Lash Miller Award of the ECS Canada Section was established in 1967 to recognize outstanding technical contribution to the field of electrochemical science and technology and/or solid state science and technology. The candidate must have demonstrated independent research in academia, industry or governmental laboratories.

To be considered for the award, a nominee must be residing in Canada and have obtained his/her last advanced education degree no more than 15 years before the year of the Award (for this cycle, 2015). The recipient does not need to be a member of ECS. The complete award rules may be found here.

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The ECS Journal of Solid State Science and Technology (JSS) is one of the newest peer-reviewed journals from ECS launched in 2012.

The ECS Journal of Solid State Science and Technology (JSS) is one of the newest peer-reviewed journals from ECS launched in 2012.

Printing technologies in an atmospheric environment offer the potential for low-cost and materials-efficient alternatives for manufacturing electronics and energy devices such as luminescent displays, thin film transistors, sensors, thin film photovoltaics, fuel cells, capacitors, and batteries.

This focus issue will cover state-of-the-art efforts that address a variety of approaches to printable functional materials and devices.

Topics of interest include but are not limited to:

  • Printable functional materials: metals; organic conductors; organic and inorganic semiconductors; and more
  • Functional printed devices: RFID tags and antenna; thin film transistors; solar cells; and more
  • Advances in printing and conversion processes: ink chemistry; ink rheology; printing and drying process; and more
  • Advances in conventional and emerging printing techniques: inkjet printing; aerosol printing; flexographic printing; and more

Find out more!

Deadline for submission of manuscripts is November 30, 2014.

Please submit manuscripts here.

Electrochemical Synthesis of Inorganic Compounds: A Bibliography

Electrochemical Synthesis of Inorganic Compounds: A Bibliography

Zoltan Nagy, a visiting scholar with the Department of Chemistry at the University of North Carolina at Chapel Hill, asked me to post this kind offer:

I have written a bibliography book about Electrochemical Preparation of Inorganic Compounds (Plenum Press, 1985) with thousands of references.

I have continued to collect the references till the beginning of this year, many-many more thousands. But I realized that I will not be able to use them for anything worthwhile.

I am ready to donate the material to anybody who could make valuable use of it. I still have some of the manuscript of the book on disks.  The later ones are in a varied formats. Some on 3X5 cards, some pages copied from Chemical Abstracts with the appropriate abstract circled. And references with abstracts on CDs since 2005.

I would be ready to donate and ship to somebody interested.

I will keep them till the end of the year, if there is no interest, I’ll just get rid of them.

You can contact Zoltan at nagyz@email.unc.edu.

ECS Is Ready for Halloween

IMG_4562Here at the ECS Headquarters, we’re celebrating Halloween with a pumpkin decorating contest! Take a look at some of the staff’s creations while we send some interesting Halloween facts your way.

And don’t forget to take a look at the list we’ve compiled of Halloween-themed scientific experiments that are sure to make your holiday just a little bit more eerie.

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IMG_4560Where It All Began
Halloween can be traced back about 2,000 years to a Celtic festival called Samhain. In Gaelic, “Samhain” translates to “summer’s end.” Though the exact nature of this festival is not quite understood, it is thought to have been a time of communing with the dead. Most experts believe that Samhain and All Saints’ Day – due to their close proximity on the calendar – influenced each other and combined into the modern day Halloween.

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Top Halloween-Themed Scientific Experiments

All Hallows’ Eve. Dia de los Muertos. All Saints’ Eve. Day of the Dead. Halloween.

The name and celebrations may change throughout different parts of the world, but the mystery and thrill remain consistent. Here at ECS, we’re drumming up some ways to apply science to this holiday to make it even more eerie.

For kids or just kids at heart, here are some Halloween-themed experiments that are sure to get you in gear for this chilling time of year.

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