Battery Technology Innovation/Electric Vehicles – Page 175

Lithium Air Battery Breakthrough Could Lead To Replacement Of Lithium Ion Batteries – by Angelo Young (International Business Times – November 1, 2015)

November 2, 2015

http://www.ibtimes.com/

Lithium ion batteries have been around for nearly a quarter-century, finding their way from laptops to electric cars. But British scientists say the popular energy storage device could be obsolete by the end of the next decade, replaced by a different recipe involving oxygen.

Researchers at the University of Cambridge announced they’ve created a battery prototype that overcomes some of the challenges to making the technology commercially viable, including size and amount of energy lithium oxygen (also known as lithium air) batteries can discharge. The new battery has the potential to store up to 10 times the amount of energy held in heavier lithium ion cells of comparable size, the inventors say.

The implications are enough to make any tech aficionado cheer. Mobile phones could be charged once a week instead of every few hours, and electric cars could finally travel distances similar to gasoline-burning cars without the annoyance of frequent half-hour recharges. The concept battery – still easily a decade away from a market-ready prototype – would be a fifth of the weight and cost of current lithium ion batteries.

Lithium – Lifting the Spirits – by Christopher Ecclestone (InvestorIntel.com – October 28, 2015)

October 28, 2015

http://investorintel.com/

You don’t get to hear a specialty metal mentioned often in a Woody Allen movie, but Lithium has managed to score a mention more than a few times. Of course it’s not that the gnomic director has suddenly been converted to a new variety of battery but rather that so many of his characters (and maybe his audience) need a pick-me up of some Lithium to cure (or ameliorate) what ails them.

Then again until 20 years ago the only mention the public ever heard of Lithium was in reference to its medical properties, even though its ceramic applications were massively more important volume-wise. Indeed Lithium was the word on everyone’s lips pre-1950 when it was a standard ingredient in 7-Up (the “up” being literal) and farther back it went into Lithia Coke (give me that over Cherry Coke any day!).

Indeed, it has been speculated (and even tried in some places) that putting Lithium into water supplies might lift people’s mood and reduce suicides. In 1990, a study in 27 counties in Texas found lower rates of not only suicide but also homicide and rape in those where the drinking water contained lithium. In 2009, research in Japan found lower suicide rates in areas with lithium in the water.

Megafactory trend sparks ‘arms race’ in battery sector – by Simon Rees (MiningWeekly.com – September 29, 2015)

October 26, 2015October 19, 2015

http://www.miningweekly.com/page/americas-home

TORONTO (miningweekly.com) – Tesla Motors’ so-called ‘gigafactory’ has sparked an “arms race” in the battery sector, Benchmark Mineral Intelligence MD Simon Moores told an audience attending the Toronto leg of the company’s World Tour 2015, in which Mining Weekly Online participated.

The gigafactory, now being built in Nevada, was designed to meet Tesla’s future battery requirements, either for electric vehicles (EV) or its Powerwall and Powerpack technologies.

“Battery majors, such as LG Chem or Samsung, have all responded with expansion plans for their new plants. Companies like BYD are also building their own battery plants. Boston Power is looking to expand, while Foxconn said they were going to enter battery manufacturing,” Moores stated.

“The megafactory trend is one the battery industry has not seen before. This is not an industry saying it expects to expand by 10% or 20% over the next three years – it’s at an order of magnitude that’s much bigger,” he added.

How Tesla sparked the latest race for bigger, better batteries – by Michael McCullough (Canadian Business Magazine – September 1, 2015)

October 26, 2015October 16, 2015

http://www.canadianbusiness.com/

Battery makers are suddenly finding themselves with an explosion of new markets to service—both big and small

You can be forgiven for thinking Tesla Motors is a car company. Yes, it started out making electric cars, but only because personal transportation is the lowest-hanging fruit in tackling the global energy and emissions problem. In fact, Tesla’s core mission is to make big batteries inexpensive and practical for any number of uses.

Last spring, founder Elon Musk unveiled a new product called Powerwall, a battery pack starting at US$3,000 that’s designed to power your whole home for 10 hours or more. If you have a solar panel on your roof, it will allow you to store the electricity produced during the day and use it in the evening to cook, do the laundry and max out your electronic devices.

Even if you don’t have solar panels, you may live in one of the growing number of jurisdictions where electricity costs rise and fall at different times of the day. You could save money on your utility bill by charging your Powerwall during the wee hours and drawing from it later.

How a new battery revolution will change your life – by David J. Unger (Christian Science Monitor – August 30, 2015)

October 26, 2015October 16, 2015

http://www.csmonitor.com/

A new generation of super cells promises to reshape the future of energy.

CAMBRIDGE, MASS.; AND ARGONNE, ILL. — It’s probably safe to say that freshman chemistry rarely ranks among college students’ most memorable courses. An overcrowded lecture hall teems with 18-year-olds with chins propped on palms. Eyelids droop at the mere mention of Planck’s constant or Bohr’s model of hydrogen. Yawns abound.

So when Donald Sadoway began teaching introductory chemistry at the Massachusetts Institute of Technology in Cambridge in 1995, he wanted to liven things up. Sure, he still lectured on the properties of atomic arrangements in crystalline and amorphous solids, but he did it an unusual way: He peppered his presentations with chemistry jokes only an MIT undergrad would understand and wove literature and art into the rigid lines and squares of the periodic table.

A lifelong music lover, Dr. Sadoway paired each lecture with a relevant tune. He’d play Handel’s “Water Music” in a lecture on hydrogen bonding and Aretha Franklin’s “Chain of Fools” in a class on polymers. For DNA – that famous double-helix spiral – he’d play Hank Ballard’s version of “The Twist.”