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Who is the oldest Nobel prize winner in history? John Goodenough, a Nobel at age 97 years, who invented the lithium ion battery at a Lab in Oxford in 1974. John Goodenough is a good example for Joe and Jill Biden's idea of an America that puts more emphasis on the public good, and of the Christian (and Buddhist) virtues that life can only be well lived without greed and delusion.  He was an Episcopalian- what the Church of England is called in America.  He received no royalties for the lithium ion battery invention, only 6 decades of salary at Oxford, MIT and UT Austin. Goodenough persevered through a difficult childhood, studied mathematics at Yale because of his dyslexia, and physics at the University of Chicago under scientists Edward Teller and Enrico Fermi, getting a doctorate in 1952. 

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Us efforts led by Piedmont Lithium in North Carolina to build supplies for the lithium needed in electric vehicle batteries. The effort to get the first US big new lithium mine into operation is part of a broader effort to  build a US supply chain for the ultra light lithium metal that is highly conductive. In fact the modern lithium mining industry started in the rolling hills of the Piedmont region in North Carolina. At that time in the 1950's it was needed for nuclear bombs. Today China mines 10% of world's supplies. Abermarle Corp of the US based in Charlotte extracts lithium from mines in Australia and Chile which have large deposits of lithium. President Biden has signed an executive order calling for a review of supply chains for critical materials, including lithium as the US looks to build its own supply chains and become independent of supplies of metals from China. The lack of such supplies has become a strategic vulnerability for the US.  The growth of the electric vehicle industry and the efforts to reduce climate change emissions means higher demand for lithium. ...

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About 53% of the world's lithium is mined in Australia and shipped to China, says this report in the NYT. At the Pilbara mineral mine in rural western Australia the ore is turned into spudomene that is 6% lithium, and is sold at $5700 a ton to China where it is refined into lithium that goes into batteries for EV cars. Australia is changing its mindset to refine more of it in Australia for battery supplies and how and where lithium is exported says this report. 

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The US lags far behind in the making of the raw materials that go into making lithium ion battery cells. The most costly component is cathode materials. Mr. Straubel, a former Chief Technology Officer at Tesla who started Redwood Materials is planning to invest $3.5 billion in making the cathode material at its Reno, Nevada plant. In this WSJ interview he discusses various aspects of this venture as the EV industry takes off with large battery investments in the US by Korean and American makers in batteries.

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Stephen Lezak of Oxford looks at the costs of mining for lithium, cobalt and other minerals needed for EV's. There is the danger of the EV transition happening at the increbible cost to producing countries in Africa and Asia. In the Congo the problem of child labor and in Indonesia the problem of destroying huge parts of tropical forest. Can the EV transition happen on the backs of environmental destruction of forest or child labor?  Lezak suggests bringing mining for lithium, cobalt, back to the US with strict controls and for Apple, and EV makers to have a passport that shows where their EV battery materials come from, the responsible sourcing of materials and the controls in place. This is a problem that won't go away and will require serious solutions for green to mean something entirely positive.

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China's BYD started in electric batteries and expanded into electric cars. It has emerged as the dominant electric car company in the world as China now has half of the electric cars on the road in the world. 35% of exports of electric cars are from China. Keith Bradsher of NYT reports from Shenzen that its first car was made in 2007 of poor quality, similar to Toyota in the 1930's as it tried car manufacturing for the first time. It has surpassed Tesla in making electric cars. In each of the last 2 years it has increased electric car sales by one million to reach electric car sales on 3 million. EV sales in China were up in 2023 to 9.49 million cars giving BYD the largest share of 31%., by comparison US electric car sales were 1.2 million. New assembly lines are being built in Brazil, Hungary and Thailand. And new lines are planned for Mexico and Indonesia. This kind of growth was seen only by General Motors in 1946 after the end of the war. It also shows the progress China is making. In solar panels something like the addition of 900 million solar panels meeting the entire increase in electricity demand for each year, so that emissions targets can be met earlier than planned to tackle climate change.  The same changes are happening in electric cars. China now has 40% of electric cars or gasoline/electric plug in cars going up to 50%. For export China is building large carrier ships, the first that will take 5000 cars for export to the Netherlands. The lowest priced electric car model the Seagull was priced at $11,000. BYD's lowering of manufacturing costs have given it the ability to price the cars to attract new car buyers.  Wang Chuanfu who studied at Central Southern University in Changsha known for its battery research, was an engineer who started the company in the 1990's to make batteris for Motorola. Between 2003-2006 he experimented with making cars in the hope of making electric cars. Stalled efforts in 2009 and 2011 were met with arenewed effort in 2016 trying a new approach to cut costs by developing a battery where supplies of lithium or cobalt would not be a constraint. He developed a new battery using iron and phospate to replace lithium cobalt batteries. A big break came in 2020 with the Blade battery that increased range to the level of cobalt lithium batteries at a much smaller cost. BYD hired German Audi designers for new model design. This time BYD was in the right position to build a car company matching all others with costs lower by about 35% than VW for some models. This comes from- lower costs to make in China, making its own parts inside the company for 75% of parts compared to VW only about 35%, and by the savings from its battery research.  BYD has shown ability to shift with market needs and opportunities. In 2022 assisted driving was facing hurdles, BYD had second thoughts about the new technology, by 2023 as it was increasing in use BYD committed $14 billion in autonomous driving technology. Driving range is a problem for people in urban areas going back to their villages in China. BYD has an advantage here compared to Tesla- it makes hybrid plug ins that account for half its sales. Toyota has also had emphasis on hybrid plug ins where it missed the opportunity was that it moved very slowly on all electric cars not realizing how fast things were moving outside it's world. This is the situation America also faces in 2024 and beyond who can deliver on the infrastructure capabilities, new research ,and tap American potential to compete in this new world where one innovation will follow another. ...

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The big difference between the US at about 1.2 million electric car sales and China at over 9 million in the last year is that companies such as BYD have found away to come up new battery technology that uses different more accessible materials. BYD's research into new batteries came up with a iron phosphate battery as shown on articles on BYD in 2024 to substitute for less available lithium and cobalt. On one of its models BYD is offering a price of $11000. This attracts a different kind of buyer than what American makers are reaching. Another plus for BYD is that while sales are stalling in the US because of battery range and lack of charging station access, BYD also sells a large number of hybrid electric cars that help urban dwellers go back to their homes in the countryside. BYD also manufactures two thirds of its parts internally producing needed savings. China is also pushing electric cars with government subsidies and government is working hand in hand with industry in a concerted effort for two decades. Compare that with US where the Biden administration was the first to start changing the way the US does business to put government industry cooperation and working together at the heart of the way of doing things. The US could learn from other nations and adapt its own industrial and modernization efforts in the world after the pandemic and as supply chains are being renewed and restructured. Every nation can learn from its peers. ...

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Hyundai introduced its first electric car named the BlueOn. The South Korean government is pushing the timetable forward for development of an electric car industry in S. Korea. Production for small electric cars to begin in 2011, and medium sized electric cars to begin in 2014. By 2020 the government hopes to see 20% of the cars on the road in the electric car category, and it plans to offer tax and other incentives to buyers. Hyundai has invested $34 million in the last year for the development of a car with a lithium-ion battery. SK Energy Co is the initial supplier for the battery. The S. Korean government will do a study on exchange battery system for electric cars, where one battery can be charging while another is in use.

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GM plans to bring the Chevy Volt, a plug in type of car that will run more on the battery than the Toyota Prius- which uses gasoline support as soon as it picks up speed- to market in 3 years. But it doesn't yet know how it will do it. What created the opportunity is that Toyota is having a hard time of its own trying to figure out a battery that can provide more electric power, more punch, that would raise the Prius mpg from 46 to about 80 mpg. Its lithium ion technology batteries to achieve this haven't passed the safety tests so Toyota is pushing this back to 2011. This created a opportunity for GM to come up with its own for a plug in Chevy Volt. Its looking a small companies in the US that might supply these batteries. GM has come up with 2 consortiums of suppliers, one from MIT called A123 that is based on the work of MIT Prof.Yet-Ming Chinag who works with iron phosphate technology that is less prone to fires and safety issues. The other is led by S. Korean chemical maker LG Chem. Toshiba is working on research for a lithium ion battery for cars that will be safe on the Japanese side. It is not clear how this will turn out because batteries for laptops have had fires and safety issues, but the R&D is on in earnest for a new safe electric battery for cars. And automakers know its not just about an electric car. On it rests the image and innovation leader perception that is so important in marketing that no amount of advertising can fix, as the US automakers have learned to their extreme grief. ...

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Jon Gertner makes several critical points about the importance of supporting and investing in manufacturing. The U.S. private sector in new industries such as alternative energy, and electric cars is competing not just with the private sector in Germany, S. Korea or Japan. It is competing with the governments of these countries which are investing heavily to build innovation and jobs in their home countries. Innovation, design and manufacturing are woven together in these new industries in a manner that is different from the iPhone/ iPad/ Search algorithms /Facebook software type industries dominated by names such as Apple, Google and Facebook. The software industries are the opposite of jobs intensive industries with Facebook having 2000 employees and Google having 29,000 employees. By comparison the lithium battery industry could generate over 62,000 jobs in the next 10 years, and the electric car industry as a whole with its supplier networks could generate much larger numbers of jobs. Because of the advanced technology involved these are good well paying jobs. The finance industry in the U.S. is attracted to the quick returns in the software related fields, leaving a gap for the American government to fill a role nurturing these industries. This would be similiar to the manner that the German and Japanese governments do working with their own private sector. The private sector in the U.S. needs only the early nurturing and can operate on its own by innovating its way to competitiveness in manufacturing and cost after the early years. Because of missteps in failing to support manufacturing in the U.S., the U.S. may have to import some of the technology from countries such as Japan and S.Korea to make up for these missteps. This is happening in the lithium ion battery manufacturing technology and facilities, which experts say is being successfully imported from these countries to the U.S.. The Obama administration has provided $2.5 billion dollars from the stimulus investments to support projects of 30 companies operating in the advanced battery technology field. This includes companies such as A123 Systems and LG Chem Power in Michigan. As a result of these efforts the Department of Energy estimates that by 2015 the U.S. will have the capacity to manufacture 40% of the world production of lithium batteries for the autombile industry. In 2009 the U.S. had capacity to manufacture 2% of the batteries....

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The Chevy Volt GM's plug in electric car comes out in 2010. Toyota plans to bring its plug in electric car in late 2009. A company in China, BYD, has already come out with an electric car, the F3DM, priced at 150,000 yuan or $22,000. By contrast the Chevy Volt is expected to be priced at $40,000 when it comes out in 2010. Essentially this gives the market leadership to BYD, because it would have 2 years of experience with its cars on the road, and $40,000 is just not a commercially viable price if a competitor can sell it for half the price. So how does BYD do it? Wang Chuanfu is founder and chairman of BYD Co. a battery and car maker. BYD has built up low cost, high quality and highly motivated research and development capabilities. Wang put together about 10,000 technicians and engineers, many fresh out of colleges and technical schools in China. As it learns the efficiencies of manufacturing and design it is able to bring this to bear on the H3DM improvement, for introduction of other new electric car models. And this technical capacity comes at a much lower cost in China compared to western countries. Wang's focus on this area making it possible to price at $22,000. The CEO of Mid American an Iowa based energy producer with majority stake ownership of Warren Buffett, was attracted to BYD for this very reason, and bought a 10% stake in BYD for $230 million. Wang believes there is a more level playing field in electric cars because of the simplicity of their design and fewer parts, making for a faster move up the learning curve. Electric cars have just 2 motors (45 parts each) and 2 gearboxes (60 parts each), a total of 210 parts excluding nuts and bolts. BYD's gasoline car the F6 has 1400 powertrain parts, 840 parts for the V6 and for transmission 560 parts. Says Wang, this puts all of us on the same starting line. The F3DM is the first real electric car being able to go for 60 miles exclusively on electricity on a full charge. A car that can go 180 miles on one full charge called the BYD e6 is planned for 2009. BYD uses iron-phosphate technology which is safer because of stable chemicals and less chance of fire from overheating. This is a key criteria for this lithium ion battery technology for cars. The Chevy Volt battery being developed by A123 company at MIT uses a similiar technology. BYD started with lithium ion battery development years ago. Its founder Mr Wang was fascinated by batteries when he studied metallurgical physics and chemistry in the mid 1980's for his Masters degree. He found a research position at the General Research Institute of Nonferrous Metals in Beijing, then decided to form his own company BYD in 1995, to develop lithium ion batteries with about 20 engineers. Experience was gained selling batteries to Samsung, Nokia and Motorola. In 2002 the company went public on the Hong Kong stock exchange. Wang was attracted to the idea of electric cars at this early stage even though he did not know how to drive. In 1998, says Wang, he had his engineers start upscaling development from cellphone battery technology to electric car battery technology. At the same time to pursue his vision for the development of electric cars Wang made the decision to learn car development by making and selling gasoline cars. The first car was a small sedan called the F3 brought out in 2005. By the last quarter of 2008 the F3 was one of China's best selling automobiles. Demand for BYD's F3 and F10 models is growing even as car sales are dropping in China, helping BYD to gain in car sales relative to Cherry Automobile and Geely Holding, two of the largest competitors. ...

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Panasonic forecast a loss of $10 billion or 780 billon yen for the fiscal year ending March 31, 2012. This is the second largest loss for a Japanese manufacturing company. Hitachi lost 787 billion yen in the fiscal year ending March 2009 after the financial crisis of 2008. In the prior fiscal year Panasonic showed net profit of 74 billion yen. Panasonic posted restructuring costs of 191 billion yen for the television business and 49 billion yen for the chip business for the first three quarters of the current fiscal year. For the fourth quarter it will take a 250 billion yen writedown of goodwill for the Sanyo acquisition. Panasonic acquired Sanyo based on the potential for growth in its lithium ion battery and solar panel business. But the Sanyo unit is facing stiff competition from manufacturers in South Korea and China, with Samsung Electronics as a major competitor. The strength of the Japanese yen is affecting all Japanese manufacturers. The price competition is severe in the television business and this is also affecting Sony. Since the acquisition Sanyo's earning prospects have significantly worsened says Panasonic CFO, Makoto Uenoyama. Panasonic CEO Ohtsubo defends the acquisition saying that without the rechargeable battery business and its potential in hybrid/electric cars Panasonic's growth potential would not be the same as it is now. Panasonic plans to stop production at two plants making plasma and LCD panels this fiscal year. The job cuts planned will bring the number of employees down from 367,000 in the prior fiscal year to below 350,000....

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The National Transportation Safety Board's findings show the fire on a Japan Airlines Boeing Dreamliner 787 at Boston's Logan International Airport was caused by multiple short circuits in one of the battery's eight cells which touched off "an uncontrolled chemical reaction at high temperatures."

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Nissan and NEC plan to invest $115 to produce a lithium ion battery in a 3 years project with capacity of 13,000 a year in the beginning growing to 65,000 annually by 2011, mostly for cars. Nissan has a 51% ownership stake in the new company. Nissan and NEC say their laminated cell battery uses a stable crystal structure called spinel manganese that will eliminate risk of overheating.

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Ghosn of Renault-Nissan used to be a skeptic about electric cars. Now he is on board. Nissan plans to sell an electric car in the US and Japn by 2010. It will be only hundreds of vehicles at first so it will take more time to take it to mass market, but the goal is to go for mass market. By 2012 Nissan will plan for a lineup of electric vehicles, so it will extend beyond small cars to small minivans and small commercial vehicles and small crossovers. 100% electric cars also are described as zero emission vehicles. But Nissan won't be the only company doing this. Mercedes is moving "very fast" in the direction of emission free vehicles, see the the interview with Daimler's Zetsche. Mitsubishi Motors and Fuji Heavy Industries are testing versions of electric cars. And GM plans to introduce the Chevy Volt in 2010. Toyota plans to have a plug in hybrid about this time. Mercedes will be the first to bring a lithium oin battery in its S400 coming out later this year which will be a hybrid. It is the cooling of lithium ion batteries that has been a major hurdle to development of electric cars and Daimler's Zetsche says they have solved this problem, have 24 patents, and developed a cooling system that works inside the car. Nissan has an electric car project that it is working on with California based Project better Place to produce electric cars for the Israeli and Danish markets. Ghosn has grasped the idea that the market is signalling a major and irreversible change towards smaller emissions and regulators are way behind on this curve. He says that if one is to sensibly participate in the growth of emerging markets which Nissan is doing in North Africa and India and Eastern Europe then one has to think in terms of sustainability and lower emissions, as putting tens of millions of more cars on the road around the world can damage the environment. And the only way this can be done to meet the aspirations of people in emerging markets is to lower emissions and to set this as the overriding goal. One gets the same sense from the Germans, see Zetsche, Daimler....

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Interview with Dieter Zetsche, Daimler's CEO on what Mercedes is doing. Daimler is introducing the Smart car in the US in a big way. Its just 8 feet long and gets 40 miles per gallon. Demand for it from dealers was so strong that instead of 40 dealers as planned Mercedes has setup 67 dealers in 31 states in the USA. About 3500 were sold in the first 3 months, Feb to April 2008. Its Bluetec program is another way its boosting fuel efficiency. The Bluetec program is for making diesel engines as clean as gasoline engines and gasoline engines as efficient as diesel engines. Its the second generation of direct injection systems and both engines will work with self ignition. And Daimler is on the path of combining these engines with hybrids. And also develping fuel cell and all electric battery driven vehicles emission free. As Zetsche says Daimler is moving along this path very fast. In lithium ion battery in cars Daimler is taking the lead. He says the American and Japanese makers are pushing hard but Mercedes is ahead by taking the car to market that has a lithium ion battery. How does Daimler do it? It has about 24 patents. The main reason no carmaker has made it to market with lithium ion battery for cars is the cooling problem that has been seen in laptops also. Mercedes solution to this has been to integrate the cooling of the battery into the cooling system of the car with a sophisticated system, hence the many patents. Next year Dailmer will introduce the S-Class with a six cylinder gasoline engine, the S400 Hybrid with a lithium ion battery, and it will be the first in market. Dieter Zetsche is so confident that he says it will have perfect performance and absolute safety. With targets for fuel efficiency in Europe more aggressive than in the USA, and the German public pushing for higher fuel efficiency aggressive emissions targets and intolerant of excuses from German carmakers, makers like Daimler are moving very fast in this direction. Adding to pressures from the German public, they see oil prices at current levels for the foreseeable future, this adds to the urgency. Americans and Japanese makers stand the risk of falling behind. See the links to the pressure from German public opinion and the German carmakers response to this. And clearly Zetsche reflects that confidence in this interview. Daimler's Mercedes division is selling a lot of cars in China, Russia, and the Middle East. As he put it there are 400,000 millionaires in China and Mercedes are sellig very well in these markets just as the US market shrinks. And these are cars in the dollar 40,000 plus or $100,000 plus range in which Mercedes has he lead. This market will also shrink as the global economy slowsdown but the profits from this market will probably be plowed into the Bluetec and other advanced fuel efficiency programs that will give Daimler a market advantage in the longer run....

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Toyota's views on a car run by batteries like the Volt GM has planned. It will take the time to work on this, at this time it sees a hybrid as the best option for alternate busts of power by both the electric and the gasoline power. A battery that would fill up the trunk of a car would be needed for a car to run only on electric power for 40 miles. He heads engine development and fuel cell engineering for Toyota. This is the existing technology but Toyota will take the needed time to develop the technology of lithium ion batteries to power vehicles, doing this step by step.