Amprius’ Silicon Nanowire Batteries Fly – For 25 Days

Dean Sigler Batteries, Solar Power, Sustainable Aviation Leave a Comment

Sunnyvale, California-based Amprius kept a low profile for several years, despite its founder, Yi Cui, being a leading light in battery development.  Their December 4th press release, though, finds the company to be in a more open mood, their advanced lithium-ion cells with 100-percent silicon anodes having flown Airbus’ Zephyr High Altitude Pseudo Satellite (HAPS) for over 25 days, “setting a new endurance and altitude record for stratospheric flight.” This milestone represents a great leap forward since Alan Cocconi flew his So Long solar-powered model for 48 hours, the first of many projects of which he would be an integral part, and the first solar airplane to fly overnight.  He worked on the General Motors EV1 and Eric Raymond’s Sunseeker 1 – just a small part of the automobiles and aircraft which he would help create or refine. Your editor first saw Cui at an early electric aircraft symposium nine years ago.  Cui discussed the benefits of developing silicon anodes …

Cambridge’s “Ultimate” Battery? Wait 10 Years and See

Dean Sigler Batteries, Electric Aircraft Materials, Electric Powerplants Leave a Comment

Cambridge University researchers claim to have successfully demonstrated how several of the problems impeding the practical development of the so-called “ultimate” battery, in this case a lithium-oxygen unit, could be overcome.  They make some pretty impressive claims, saying they’ve developed a working laboratory demonstrator with “very high” energy density – comparable to that of gasoline and with greater than 90-percent efficiency, and the ability to be recharged more than 2,000 times, or 5-1/2 years with a complete cycle and recharge every day. A lithium-oxygen or lithium-air battery of this type would allow an uninterrupted drive between London and Edinburgh on a single charge, about 415 miles, over 100 miles greater than the top mileages promised by Tesla and GM at this point. Researchers add the promise of one-fifth the cost and one-fifth the weight of currently available batteries – a touchstone for electric aircraft designers, and close to the goals U. S. Energy Secretary Steven Chu asked for three years …

Lighter, More Powerful, Cheaper. Can J-CESR Bring Us Better Batteries?

Dean Sigler Uncategorized Leave a Comment

$70,000 is a sizable base price for a car.   That sum for the simplest of Tesla S sedans makes a bigger than average debt load for most of us, probably more than most can responsibly assume.   Even the much anticipated model “E” at half that price is more stunning than the average sticker shock these days.  What if, by some act of art or science, that $70,000 could be slashed to $14,000 for an electric vehicle that could travel 265 miles on a charge?  That tall order is the order of the day for the Joint Center for Energy Storage Research, started two years ago under Dr. Steven Chu, who was then U. S. Secretary of Energy.  He and his “teams” were charged with establishing the cooperative enterprise at “Argonne National Laboratory with a budget of $120 million over five years to create a battery five times more powerful and five times cheaper than today’s norms – all within five …