Thursday 31 October 2019

Na-ion: A Battery Technology Worth Its Salt

Hi All,

Na-ion battery technology has been featured in an artice in Chemistry World, entitled A Battery Technology Worth Its Salt.

An illustration showing an X-ray of two batteries and a salt shaker

The full article may be found here:

https://www.chemistryworld.com/features/a-battery-technology-worth-its-salt/3010966.article

Faradion, based in Sheffield, UK, was one of the first companies on the sodium ion battery scene. ‘We have a range of cathode materials patented, but our preferred composition right now is a sodium–nickel layered oxide,’ explains Jerry Barker, chief technology officer at Faradion. Graphite can’t be used as the anode in sodium ion batteries; it is not energetically favourable to put sodium in between the graphene layers. Faradion is using a hard carbon anode, a popular choice amongst sodium ion battery developers, and NaPF6 electrolyte. 
Alongside batteries for renewable energy storage, Faradion is also developing replacements for lead acid batteries in both low cost electric transport – such as e-bikes, e-scooters and e-rickshaws – and for vehicle starter, lighting and ignition (SLI) purposes. ‘We've done home storage system, e-bike and golf trolley demonstrators to show that this technology is for real,’ says Barker. ‘We're not anticipating manufacturing the batteries ourselves. We are relicensing the technology now to existing lithium ion manufacturers and new entrants in the field.’ He says they will hit the shelves: ‘hopefully, fairly soon ’.

Best, Jerry

Sunday 27 October 2019

Faraday Institution - Expert Panel

Hi All,




I mentioned previously that I was acting as an Expert Panel member for the UK's Faraday Institution. The FI is the UK's independent institution for electrochemical energy storage and skills deveopment.

More information about the Faraday Institution and its mission may be found here:

https://faraday.ac.uk/#home

More information on the Expert Panel (including profiles) may be found here:

https://faraday.ac.uk/expert-panel/

Jerry

Friday 25 October 2019

International Conference on Sodium Batteries (ICNaB-2019)


Hiya,

International Conference on Sodium Batteries (ICNaB-2019).

The final program for the confernce in Naperville, Chicago is now avaiable here:

https://custom.cvent.com/39AB5C3D8FB74A4981E935F55018875E/files/f2388377bc3b411abbcb50e9b2d1c4ca.pdf

My abstract: The Performance and Commercialization of Faradion’s non-aqueous Na-ion Battery Technology Jerry Barker, Faradion Limited

Jerry

Thursday 10 October 2019

Nobel Prize for Chemistry - 2019

Hi All,

I guess everyone is aware of this by now:

https://www.nobelprize.org/prizes/chemistry/2019/press-release/

The Nobel Prize in Chemistry 2019 has been awarded to John Goodenough, Stan Whittingham and Akira Yoshino. Richly deserved. The prize recognizes the development of the lithium-ion battery. This lightweight, rechargeable and powerful battery is now used in everything from mobile phones to laptops and electric vehicles. It can also store significant amounts of energy from solar and wind power, making possible a fossil fuel-free society.
To quote the Royal Swedish Academy of Sciences:

The foundation of the lithium-ion battery was laid during the oil crisis in the 1970s. Stanley Whittingham worked on developing methods that could lead to fossil fuel-free energy technologies. He started to research superconductors and discovered an extremely energy-rich material, which he used to create an innovative cathode in a lithium battery. This was made from titanium disulphide which, at a molecular level, has spaces that can house – intercalate – lithium ions.
The battery’s anode was partially made from metallic lithium, which has a strong drive to release electrons. This resulted in a battery that literally had great potential, just over two volts. However, metallic lithium is reactive and the battery was too explosive to be viable.

John Goodenough predicted that the cathode would have even greater potential if it was made using a metal oxide instead of a metal sulphide. After a systematic search, in 1980 he demonstrated that cobalt oxide with intercalated lithium ions can produce as much as four volts. This was an important breakthrough and would lead to much more powerful batteries.

With Goodenough’s cathode as a basis, Akira Yoshino created the first commercially viable lithium-ion battery in 1985. Rather than using reactive lithium in the anode, he used petroleum coke, a carbon material that, like the cathode’s cobalt oxide, can intercalate lithium ions.
The result was a lightweight, hardwearing battery that could be charged hundreds of times before its performance deteriorated. The advantage of lithium-ion batteries is that they are not based upon chemical reactions that break down the electrodes, but upon lithium ions flowing back and forth between the anode and cathode.

Monday 7 October 2019

UK Faraday Institution

Hi All,

You are probably aware that the UK's Faraday Institution recently announced funding for 5 new research projects. That makes nine FI funded projects in total. At Faradion, we are particularly interested in the Sodium-ion Batteries project.

As you may know, I sit on the FI's Expert Panel:

https://faraday.ac.uk/expert-panel/

The Faraday Institution’s portfolio of large scale, mission-driven projects was selected after consultation with academic and industrial stakeholders across the country, with due consideration of the potential impact they could make to the UK. The institution’s four initial projects, launched in 2018 are as follows:
The following five further projects were launched in the second half of 2019.



Saturday 5 October 2019

CEA Grenoble

 Hi Everyone,

CEA-Grenoble. It was a great honour to be a member of the panel to examine Dr. Loic Simonin with a view to him being awarded the diploma HDR in Engineering - Materials. Loic did a great job!




Also on the panel were my friends and colleagues: Laurence Croguennec (icmcb), Philippe Poizot (cnrs-imn), Rosa Palacin (icmab), Teofilo Rojo (cic-energigune) and Renaud Bouchet (grenoble-inp). As you can see, following the examination we had an excellent lunch!