“We’re now looking for higher and higher energy density batteries, and graphite [anodes] can’t do that anymore,” said Yi Cui, a professor of material science and engineering and leader of the research team.
A team of Stanford University researchers, including former Energy Secretary Steven Chu, believes it has achieved the “holy grail” of lithium battery design: an anode of pure lithium that could boost the range of an electric car to 300 miles.
Lithium-ion batteries are one of the most common types of rechargeable batteries on the market today. But most of the batteries—found in technologies like smartphones and electric cars—use an anode made of graphite or silicon.
Johannes Hinckeldeyn, Director of Sales and Marketing at EL-CELL, explains the strong collaboration with ECS, “EL-CELL wants to become the standard toolbox for all battery researchers. ECS is the global organization of Electrochemists and therefore our main partner to support electrochemists who want to achieve better research results. Beside our equipment, we offer special seminars for beginners and experienced researchers to learn how to conduct successful battery tests with our equipment. ECS members are cordially invited to participate and they will get special conditions for our seminars.” Please visit www.el-cell.com/service for registration and further information.
Just about exactly fifty years ago – this month, as I recall – I walked into the office of the chemistry department chairman at SMU and asked to become a chemistry major. It was among my better decisions. The fit has proven to be perfect.
(These comments were presentedby Larry R. Faulkner at the ceremony commemorating Honorary Membership in The Electrochemical Society for Allen J. Bard and John B. Goodenough, University of Texas at Austin, Texas, November 23, 2013.)
I have loved the science and its history. I have loved its relevance to the world at large. I have even loved the fact that chemists are workaholics. It’s notable, in fact, that when I went to see the department chairman back in 1963, it was about eight o’clock in the evening. The light was on in his office, as it was practically every night. While he didn’t warmly welcome my interruption, he still helped me – and Professor Harold Jeskey became an important mentor and a lifelong friend.
In the history of science and technology, there have been many instances when two or more persons have independently created an invention or concept at almost the same time, but for various reasons, one inventor takes precedence or credit.
Examples are the telephone, the integrated circuit, calculus in mathematics, and the theory of evolution. Once the invention or concept is introduced, further development soon proceeds along a single path. A rare instance is an innovation that was developed by two different scientists in two different fields at almost the same time, and then widely used for many years in these two fields without the investigators being aware of the other application.
This happened in the case of the potentiostat and the voltage clamp, which are basically similar instruments, but whose actual applications are quite dissimilar.
One of the joys of being President of ECS is contacting ECS contributors about good news. I am especially excited about ECS journals and the direction they are taking. I believe they are the quite simply The Best Place to publish electrochemical and solid state papers – especially now they are also enabling Open Access (OA). In short, ECS journals (JES, JSS, EEL, SSL) are:
well-established–we have been publishing since 1902
high quality–our peer-review is excellent and we publish one of the most-cited journals
fast–submission to first decision regularly takes less than a month; and once the paper is accepted it usually takes ten days or fewer for the Version of Record to be published online–faster than any other journal in our field
open access–authors now have the choice of publishing as Open Access, which enables the widest possible distribution because there is no subscription or barrier for readers to access your paper
FREE open access for many of our authors: publishing OA is free to ECS members, ECS meeting attendees, and authors coming from subscribing institutions
No other journal offers this combination of quality, speed, and full open access at no cost to the author.
By publishing your research in our highly respected journals–and choosing to make your papers Open Access–you’re helping us make OA widespread and sharing the outputs of your important research with scientists around the world. I did (see my latest article) and will be doing so in the future.
Zoltan Nagy calls himself a semi-retired electrochemist, but he’s doing anything but being retired. After 15 years in a variety of electrochemical industrial research, he spent 30 years at Argonne National Laboratory carrying out research on electrode kinetics and surface electrochemistry. Now he’s at the Chemistry Department of the University of North Carolina at Chapel Hill.
He wrote to ask that we let people know the two rather popular and often visited websites: ‘Electrochemistry Dictionary and Encyclopedia ” and “Electrochemical Science and Technology Information Resource (ESTIR)” which were hosted by the Yeager Center at Case-Western Reserve University went off-line in January because their computer died, and it could not be restarted there because of some new university regulations.
Work is on the way to relocate these websites to a new host, hopefully in the not too distant future.
You can have a look at what they used to be on what’s called the WayBackMachine (check out any old versions of websites BTW). Once you get there paste in electrochem.cwru.edu/encycl/ and click on January 1, 2014. Then try http://electrochem.cwru.edu/estir/ and select February 3, 2013.
Registration rates include all-inclusive accommodations
Early-bird registration is now open for the 2014 ECS and SMEQ (Sociedad Mexicana de Electroquímica) Joint International Meeting to be held October 5-9, 2014.
This major international conference offers a unique blend of electrochemical and solid-state science and technology; and serves as a major forum for the discussion of interdisciplinary research from around the world through a variety of formats, such as oral presentations, poster sessions, exhibits, and tutorial sessions.
ECS Short Courses are all day instruction designed to provide students or the seasoned professional a wide range of topics. Taught by industry experts, the small class size makes for an excellent opportunity for personalized instruction.
The registration fee for the Short Courses is $425 for ECS Members and $520 for Nonmembers. Students may register for a Short Course at a 50% discount—ECS Student Members: $212.50, and Nonmember Students: $260.
The registration fee for the course includes participation in the course, text materials, continental breakfast, luncheon, and refreshment breaks. The Short Course registration fee does not include or apply to the general Meeting Registration, and it is not applicable to any other activities of the meeting.
GKN Powder Metallurgy and McPhy Energy SA have announced a technology partnership agreement to accelerate the deployment of cost competitive solid state hydrogen storage.
Industrial markets already consume large volumes of hydrogen and in future the gas will play an important role in storing renewable energy as well as in CO2 free hydrogen fuel cell vehicle development. Solid state storage is stated as being a safe way to store large quantities of gas with high density at low pressure.