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Nissan Leaf with 300 km range on sale by 2017

Nissan's next-generation Leaf electric vehicle will have a new battery that more than doubles its range. And Infiniti’s delayed electric car will debut with the improved battery by early 2017.

Nissan executives shed more light on the automaker’s next EVs, saying better range is key to higher sales. Nissan launched the Leaf in December 2010 and has already improved its performance. But engineers are working on a big jump with a revamped battery by 2017.

A new battery chemistry will debut by then for use by Infiniti and Nissan, said Andy Palmer, executive vice president in charge of Nissan’s zero emissions and Infiniti businesses.

“The battery chemistry is all about range and energy density. That’s where you see the technology moving very, very fast,” he said in an interview last month at the Beijing auto show. “This really is the game-changing technology.”

Longer range

Palmer declined to offer a target range. But the battery must deliver up to 300 kilometers, or 186 miles, for EVs to present an everyday alternative to the hydrogen fuel cell cars that rivals are developing, he said.

During an interview at the LA Auto Show, Pierre Loing, vice president of product and advanced planning and strategy at Nissan, hinted that his company may offer multi-pack size option that might increase range to 400 km.

Nissan have been working in a lithium nickel manganese cobalt battery chemistry since 2009 that was expected to enter production by 2015.

Nissan has not announced timing for the next-generation Leaf. But Palmer said the car is on a normal product cadence, from a full global launch dating to 2013: “I think if you thought about a normal model cycle from 2013, that would be more realistic.”

That would put the next Leaf’s arrival just after Nissan’s Power 88 business plan, which ends March 31, 2017, he added.

The Infiniti EV, however, will go on sale “close enough to be counted” as part of Power 88 and should arrive before the luxury brand gets its long-awaited top-shelf halo car, Palmer said.

“I think the EV will come earlier,” Palmer said, citing tightening government emissions rules, particularly in China. “To some extent, EV is now becoming practically a requirement.”

Better batteries

The Infiniti EV will get the company’s next-generation battery chemistry and feature wireless inductive charging, he said.

Infiniti had delayed the EV to wait for better battery technology. The debut was initially slated for 2014.

The Infiniti EV may have a greater range than the Leaf because its sedan packaging can accommodate a bigger battery.

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BMW i8 Gran Coupé to rival Tesla Model S

BMW's i3 is already on the market and the BMW i8 plug-in hybrid sports car is poised for its own launch but what of a rival for the Tesla Model S?

We recently reported on BMW considering a large battery powered sedan to compete head on with Tesla's Model S. The guys at Auto Projecoes envisage a "family" i8, with four doors and longer wheelbase as a fitting Model S rival.

Source: Auto Projeções

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2015 BMW i8 by the numbers [VIDEO]

Jason Cammisa of Road & Track brings us the first real world performance numbers of the new BMW i8. One interesting figure that stands out is the 0 to 60 mph which was recorded at 3.8 seconds. You can also read our BMW i8 test drive here.

BMW i8 uses a plug-in hybrid system consisting of a turbocharged three-cylinder BMW TwinPower Turbo petrol engine and BMW eDrive technology in the form of an electric drive system.

In the rear of the BMW i8, the B38 three-cylinder engine makes 231 hp and delivers its power solely to the rear wheels. At the front, an electric motor is installed, which is powered by a lithium-ion battery in the middle of the vehicle. The system performance drives up to 362 horsepower.

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BMW Launch i Solar Carport Concept for i3 and i8 [VIDEO]

With the all-electric BMW i3 already on the market and the BMW i8 plug-in hybrid sports car poised for its own launch, the BMW Group portfolio boasts the world’s first premium automobiles purpose-designed for zero-emission mobility.

The international media launch of the BMW i8 in Los Angeles will include the presentation of a solar carport concept developed by BMW Group DesignworksUSA for the use of renewable energy. It combines high-grade technology for generating electricity from solar power with an innovative design that perfectly complements the BMW i models.

In its choice of materials, design and colour, the DesignworksUSA carport concept takes its cue from the characteristic styling of the BMW i models to form a harmonious counterpart. The holistic sustainability concept is underlined by the materials used in the construction of the carport and by its solar modules. In addition to the carbon elements on the side of the carport, the principal material used is bamboo in the form of struts. Thanks to its rapid growth, bamboo is considered a particularly sustainable raw material. For the generation of electricity, high-grade glass-on-glass solar modules are used. These are translucent and very durable, as well as generating a high energy yield. For the panels used in Europe, the manufacturer offers a 30-year guarantee.

The solar carport not only guarantees the supply of green power but furthermore allows for energy self-sufficiency, so that customers remain independent of electricity prices. In conjunction with the BMW i Wallbox Pro, the car can be specifically charged with solar electricity from the carport. The Wallbox also indicates the amount of solar energy that goes into the car and provides an analysis of recent charging processes which shows the respective proportions of solar and grid power. If the solar panels provide energy beyond the requirements of the vehicle, this surplus solar power can be put to domestic use.

Generating private electricity with the aid of solar collectors and feeding this CO2-free energy via the BMW i Wallbox into the vehicle’s high-voltage battery further optimises of the life cycle assessment of the BMW i models. Regularly hooking up the high-voltage battery to the Wallbox connected to the solar carport enables a high degree of CO2-neutral usage of the BMW i8. With a fully charged high-voltage battery, the plug-in hybrid sports car has a range of around 37 kilometres (22 miles) in all-electric mode.

During development of the solar carport concept by BMW Group DesignworksUSA, the spotlight was firmly on the harmonious interplay between vehicle design and architecture. The glass-on-glass solar modules of the carport are supported by exclusively designed bamboo and carbon elements that authentically reflect the hallmark lines and surface sculpting of the BMW i automobiles. “With the solar carport concept we opted for a holistic approach: not only is the vehicle itself sustainable, but so is its energy supply,” explains Tom Allemann, who is responsible for the carport design at BMW Group DesignworksUSA. “This is therefore an entirely new generation of carports that allows energy to be produced in a simple and transparent way. It renders the overarching theme of lightweight design both visible and palpable.” The BMW Group subsidiary headquartered in California runs an international design studio network in Europe, Asia and America. As an impulse-generator in the fields of design and innovation, the company works for the BMW Group brands as well as for numerous other high-profile international clients spanning a range of industrial sectors.

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Panasonic Has 39% Share of Plug-In Vehicle Batteries Thanks to Tesla

Batteries for hybrids and plug-in vehicles are growing fast, more than tripling over the past three years to reach 1.4 GWh per quarter, according to the Automotive Battery Tracker from Lux Research. Panasonic has emerged as the leader thanks to its partnership with Tesla, capturing 39% of the plug-in vehicle battery market, overtaking NEC (27% market share) and LG Chem (9%) in 2013.

"Even at relatively low volumes -- less than 1% of all cars sold -- plug-in vehicles are driving remarkable energy storage revenues for a few developers, like Panasonic and NEC, that struck the right automotive partnerships," said Cosmin Laslau, Lux Research Analyst and the lead author of the new Lux Research Automotive Battery Tracker.

"To understand this opportunity, we combined a comprehensive data set of vehicle sales with detailed battery specifications for each car and supplier relationships, yielding a flexible tool that uncovers unexpected insights into this fast-changing market," he added.

Lux Research analysts used historical and current vehicle sales, detailed battery specifications for each car, and supplier relationships to create the Automotive Battery Tracker. Among their findings:

  • The electric vehicle drivetrain is the most lucrative for battery developers. Hybrids move the most cars -- the Toyota Prius is the best-selling car in Japan and California -- but their small battery packs mean they require less energy storage in total than full electric vehicles like the Nissan Leaf. Hybrids demanded 481 MWh of batteries in Q1 2014, while electric vehicles called for 774 MWh. Nonetheless, in terms of demand by OEM, hybrid leader Toyota (28%) edges EV providers Tesla Motors (24%) and Renault-Nissan (21%).

  • Regulations and consumer preference drive significant regional differences. China has the highest ratio in the world of plug-in vehicles to hybrids, but its average EV battery packs are less than half the size of those sold in the U.S. Adoption of hybrids also varies widely: Japanese consumers bought more than three times as many hybrids as U.S. drivers did, despite Japan being a much smaller automotive market overall.

  • Lithium-ion extends its lead, but NiMH sticks around. Lithium-ion batteries captured 68% of the 1.4 GWh of batteries used in plug-ins and hybrids in Q1 2014, with nickel metal hydride (NiMH) technology trailing at 28% -- but kept aloft by Toyota's loyalty to the lower-cost technology for its top-selling Prius. Next-generation solid-state batteries continue to make only a small dent, with less than 1% of the market.
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    Night Racing in a Silent Nissan Leaf [VIDEO]

    The location: one of Europe's quietest villages. The challenge: take a high speed run through the streets without waking a single person up!

    Only one car has the combination of great performance and unbelievable quietness to make it possible: the 100% electric Nissan LEAF. But could it really succeed, and complete the course without ever passing 100 decibels?

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    Porsche to Develop Plug-in hybrid Cayenne Coupé

    Porsche are planning to expand their Cayenne SUV line-up with a uniquely styled coupé model. Design proposals for the new five-door liftback are described as already being at an advanced phase.

    The Cayenne coupé will be positioned as a more sporting alternative to the regular Cayenne with a possible resemblanece to BMW's X6 coupe. It will receive a range of petrol and diesel engines, together with plug-in petrol-electric and diesel-electric hybrid powertrains.

    It is one of up to seven new SUVs set to be developed on a new version of the VW Group’s MLB platform currently being engineered by Audi.

    Source: Autocar

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    Flexible Nano Nickel-fluoride Battery Doubles as a Supercapacitor

    A Rice University laboratory has flexible, portable and wearable electronics in its sights with the creation of a thin film for energy storage.

    Rice chemist James Tour and his colleagues have developed a flexible material with nanoporous nickel-fluoride electrodes layered around a solid electrolyte to deliver battery-like supercapacitor performance that combines the best qualities of a high-energy battery and a high-powered supercapacitor without the lithium found in commercial batteries today.

    The new work by the Rice lab of chemist James Tour is detailed in the Journal of the American Chemical Society.

    Their electrochemical capacitor is about a hundredth of an inch thick but can be scaled up for devices either by increasing the size or adding layers, said Rice postdoctoral researcher Yang Yang, co-lead author of the paper with graduate student Gedeng Ruan. They expect that standard manufacturing techniques may allow the battery to be even thinner.

    In tests, the students found their square-inch device held 76 percent of its capacity over 10,000 charge-discharge cycles and 1,000 bending cycles.

    Tour said the team set out to find a material that has the flexible qualities of graphene, carbon nanotubes and conducting polymers while possessing much higher electrical storage capacity typically found in inorganic metal compounds. Inorganic compounds have, until recently, lacked flexibility, he said.

    “This is not easy to do, because materials with such high capacity are usually brittle,” he said. “And we’ve had really good, flexible carbon storage systems in the past, but carbon as a material has never hit the theoretical value that can be found in inorganic systems, and nickel fluoride in particular.”

    “Compared with a lithium-ion device, the structure is quite simple and safe,” Yang said. “It behaves like a battery but the structure is that of a supercapacitor. If we use it as a supercapacitor, we can charge quickly at a high current rate and discharge it in a very short time. But for other applications, we find we can set it up to charge more slowly and to discharge slowly like a battery.”

    To create the battery/supercapacitor, the team deposited a nickel layer on a backing. They etched it to create 5-nanometer pores within the 900-nanometer-thick nickel fluoride layer, giving it high surface area for storage. Once they removed the backing, they sandwiched the electrodes around an electrolyte of potassium hydroxide in polyvinyl alcohol. Testing found no degradation of the pore structure even after 10,000 charge/recharge cycles. The researchers also found no significant degradation to the electrode-electrolyte interface.

    “The numbers are exceedingly high in the power that it can deliver, and it’s a very simple method to make high-powered systems,” Tour said, adding that the technique shows promise for the manufacture of other 3-D nanoporous materials. “We’re already talking with companies interested in commercializing this.”

    Rice graduate student Changsheng Xiang and postdoctoral researcher Gunuk Wang are co-authors of the paper.

    The Peter M. and Ruth L. Nicholas Postdoctoral Fellowship of the Smalley Institute for Nanoscale Science and Technology and the Air Force Office of Scientific Research’s Multidisciplinary University Research Initiative supported the research.