Green Car Congress

AUGUST 15, 2016

A study by a team at MIT has concluded that roughly 90% of the personal vehicles on the road in the US could be replaced by an electric vehicle available on the market today, even if the cars can only charge overnight. Reed Faculty Initiatives Fund, and the MIT Energy Initiative. Needell, James McNerney, Michael T.

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MIT Personal Energy Vehicles 150

Green Car Congress

AUGUST 17, 2010

ARPA-E has awarded a total of $6M to a collaborative effort between 24M, MIT and Rutgers to further develop its technology ( earlier post ), on top of previous funding to MIT from DARPA. 24M Technologies launched as a new venture focused on commercializing next-generation energy storage systems based on technology out of A123 Systems.

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Recharge MIT Batteries Battery 218

Green Car Congress

OCTOBER 17, 2014

In May, researchers at MIT and Stanford University reported the development of new battery technology for the conversion of low-temperature waste heat into electricity in cases where temperature differences are less than 100 ?Celsius. converting heat to electricity. Earlier post.). discharging at low temperature.

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Waste MIT Batteries Battery 239

Green Car Congress

MARCH 30, 2014

The MIT Energy Initiative (MITEI) announced its latest round of seed grants to support early-stage innovative energy projects. They can thus be optimized for applications such as carbon capture, wastewater filtration, and natural gas storage, and for use in devices including fuel cells, rechargeable batteries, and solar cells.

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MIT Grant 2014 Energy 210

Green Car Congress

JANUARY 31, 2015

SolidEnergy , an MIT spin-out commercializing solid electrolyte technology enabling the use of lithium metal anodes for high energy density rechargeable batteries ( earlier post ), says that in 2016, it and its battery manufacturing partners will release a 2 Ah commercial battery for the smartphone and wearable market. —Hu et al.

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Recharge 2016 2017 Batteries 150

Green Car Congress

FEBRUARY 13, 2009

A team of MIT undergraduate students has invented a shock absorber that harnesses energy from small bumps in the road, generating electricity while it smoothes the ride more effectively than conventional shocks. GenShock prototype. Click to enlarge. Earlier post.). to develop and commercialize the product they call GenShock.

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MIT Energy Lithium Ion Boston 231

Green Car Congress

OCTOBER 7, 2021

SES), a developer of high-performance hybrid lithium-metal rechargeable (Li-Metal) batteries for electric vehicles (EVs) and other applications ( earlier post ), has established the first pilot production line capable of scaling up high-concentration, solvent-in-salt electrolyte production. SES Holdings Pte. Earlier post.)

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Hybrid Batteries Battery Production 329

Green Car Congress

MARCH 17, 2021

So far, the current densities that have been achieved in experimental solid-state batteries have been far short of what would be needed for a practical commercial rechargeable battery. We think it could be used immediately in cell development for a wide range of applications, from handheld devices to electric vehicles to electric aviation.

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Batteries Battery MIT Lithium Ion 199

Green Car Congress

OCTOBER 8, 2012

During discharge, Li ions meet with reduced oxygen on the surface of the Li x V 2 O 5 electrode forming Li 2 O 2 , which is decomposed upon recharge. The rechargeable Li?air Kendall Associate Professor of Mechanical Engineering and Materials Science and Engineering at MIT and the senior author of the paper, says.

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Lithium Air Li-ion Recharge Insight 253

Green Car Congress

APRIL 27, 2014

Researchers at Rensselaer Polytechnic Institute have developed a safe, extended cycling lithium-metal electrode for rechargeable Li-ion batteries by entrapping lithium metal within a porous graphene network (Li-PGN). The performance of various other cathode materials (LiCoO 2 , LiFePO 4 , LiNi 0.75 O 2 and Li 3 V 1.98 Mukherjee et al.

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Recharge Li-ion Carbon Batteries 252

Green Car Congress

AUGUST 5, 2015

A team of researchers at MIT and Tsinghua University has developed a high-rate, high-capacity and long-lived anode for Li-ion batteries comprising a yolk-shell nanocomposite of aluminum core (30 nm in diameter) and TiO 2 shell (~3 nm in thickness), with a tunable interspace (Al@TiO 2 , or ATO). —Li et al. Earlier post.).

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Li-ion MIT Batteries Battery 150

Green Car Congress

DECEMBER 5, 2013

Toyota Motor Corporation has licensed the intellectual property (IP) of WiTricity, an MIT spin-off commercializing an approach to “mid-range” wireless charging (distances from a centimeter to several meters, earlier post ).

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Plug-in Toyota Plug Charging 239

Green Car Congress

OCTOBER 22, 2013

A123 Venture Technologies, a Massachusetts-based technology incubator, will collaborate with MIT startup SolidEnergy. The partnership combines SolidEnergy’s Solid Polymer Ionic Liquid (SPIL) electrolyte—originally developed at MIT—with the mature cell design and prototyping capabilities of A123. Source: SolidEnergy.

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Polymer Energy MIT Massachusetts 342

Green Car Congress

JUNE 13, 2011

Persson is also a co-founder of Pellion Technologies—an MIT spin-off co-founded by Dr. Gerbrand Ceder, funded by Vinod Khosla, and recipient of an ARPA-E grant ( earlier post ) that is developing a magnesium-ion (Mg-ion) rechargeable battery. Earlier post.). Chemistry of Materials 2010 22 (3), 860-868 doi: 10.1021/cm9016497.

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Li-ion Recharge Design Batteries 210

Green Cars News

AUGUST 31, 2012

The Massachusetts Institute of Technology (MIT) has a reputation for its ground-breaking research particularly in the areas of energy, mechanical engineering and medical technology. Recent works have included developments in solar power technology, road infrastructure and electric cars.

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MIT Massachusetts Plug-in Plug 51

Green Car Congress

MAY 26, 2011

2011), Semi-Solid Lithium Rechargeable Flow Battery. The SSFC could enable new models such as transportation ‘fuels’ tuned for power versus range, or cold versus warm climates, with flexible refueling and recycling options. Source: Duduta et al. Click to enlarge. —Duduta et al. Duduta, M., Limthongkul, P., Brunini, V. Craig Carter, W.

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Li-ion Recharge Grid Lithium Ion 345

Green Car Congress

MARCH 12, 2009

Researchers at MIT have developed a lithium iron phosphate electrode material that achieves ultra-high discharge rates comparable to those of supercapacitors, while maintaining the high energy density characteristic of lithium-ion batteries. Full charge–discharge cycles at constant 197C and 397C current rates without holding the voltage.

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MIT Li-ion Lithium Ion Charging 150

Green Car Congress

FEBRUARY 20, 2020

Here we develop and demonstrate a machine learning methodology to efficiently optimize a parameter space specifying the current and voltage profiles of six-step, ten-minute fast-charging protocols for maximizing battery cycle life, which can alleviate range anxiety for electric-vehicle users. Attia et al.

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Toyota Batteries Battery Exhaust 398

Green Car Congress

JANUARY 22, 2021

A new study from researchers at MIT uncovers the kinds of infrastructure improvements that would make the biggest difference in increasing the number of electric cars on the road, a key step toward reducing greenhouse gas emissions from transportation. A paper on the findings is published in Nature Energy.

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MIT Electric Cars Seattle Cars 262

Green Car Congress

AUGUST 25, 2022

An international team of researchers led by Quanguan Pang at Peking University and Donald Sadoway at MIT reports a bidirectional, rapidly charging aluminum–chalcogen battery operating with a molten-salt electrolyte composed of NaCl–KCl–AlCl 3. —Pang et al.

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Molten Salt Low Cost Recharge MIT 186

Green Car Congress

MARCH 24, 2021

The cost of the rechargeable lithium-ion batteries used for phones, laptops, and cars has fallen significantly over the last three decades, and has been a major driver of the rapid growth of those technologies. Ziegler and Trancik.

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Li-ion MIT Lithium Ion Price 284

Cars That Think

JULY 13, 2023

Goodenough, a professor of electrical and computer engineering at the University of Texas at Austin , authored more than 800 technical papers during his career. It later became the chemistry of choice for early electric cars including the 2008 Tesla Roadster. His ability to cross disciplines started at MIT. “At as a researcher.

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Lithium Ion Batteries Battery Austin 95

Tony Karrer Delicious EVdriven

APRIL 21, 2009

The breakthrough could revolutionize electric car battery technology and pave the way for ultra-fast charging electric vehicles in as little as two years. The discovery came when MIT researchers Byoungwoo Kang and Gerbrand Ceder found out how to get a common lithium compound to release and take up lithium ions in a matter of seconds.

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MIT Gas-Electric Gas Electric Cars 45

Green Car Congress

APRIL 30, 2010

The second round was focused specifically on three areas of technology representing new approaches for advanced microbial biofuels (electrofuels); much higher capacity and less expensive batteries for electric vehicles; and carbon capture. Electrofuels: Biofuels from Electricity. The grants will go to projects in 17 states.

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Carbon Batteries Battery Li-ion 249

Green Car Congress

DECEMBER 17, 2009

Researchers at MIT have developed a new bicycle rear wheel—the Copenhagen Wheel —that can capture energy from braking and deliver the power back to provide a boost. A close-up of the Copenhagen Wheel, from MIT’s SENSEable City Lab. Click to enlarge. Everything is controlled by your feet,” Ratti explains.

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MIT Climate Change Kits Recharge 186

Green Car Congress

APRIL 13, 2014

Researchers from MIT and Harvard University have developed a material that can absorb the sun’s heat and store that energy in chemical form, ready to be released again on demand. While the material could produce electricity, it would be inefficient at doing so, but for applications where heat is the desired output—e.g.,

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MIT Store Energy Storage Energy 306

Green Car Congress

APRIL 12, 2015

Researchers at the Skoltech Center for Electrochemical Energy Storage (CEES), a partnership between the MIT Materials Processing Center and Lomonosov Moscow State University, are focusing on the development of higher capacity batteries. Chiang, MIT colleague W. Rechargeable metal-air batteries.

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MIT Li-ion Batteries Battery 150

Green Car Congress

APRIL 22, 2016

The Plug-in Hybrid Electric Vehicle with Long Electric Range (PHEVLER - pronounced “fevler”) is a new category emerging in the electric vehicle marketplace. PHEVLERs are defined as PHEVs with sufficient battery capacity for all electric driving of twice the average daily distance. [ and UC-Davis Emeritus and Bruce R.

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Clean Cleaning Future Green 150

Cars That Think

DECEMBER 31, 2023

A real corker, and the answer to the question, what generates electricity but isn’t a dynamo or a fuel cell? Heat Pumps—The Well-Tempered Future of A/Cs A window-mounted air-conditioning system includes an electric heat pump for heating. NASA Battery Tech to Deliver for the Grid EnerVenue’s nickel-hydrogen battery cells are 1.8

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Fusion Energy Lithium Ion Grid 81

Green Car Congress

JULY 9, 2017

In a new study, a team from the University of Central Florida and MIT has found that the US Corporate Average Fuel Economy (CAFE) Standards is an effective policy solution that does increase the adoption of EVs, whether it is implemented alone or in conjunction with another policy such as government incentives.

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Market Fuel Economy Standards Economy 150

Green Car Congress

MARCH 23, 2016

MIT professor Donald Sadoway and his team have demonstrated a long-cycle-life calcium-metal-based liquid-metal rechargeable battery for grid-scale energy storage, overcoming the problems that have precluded the use of the element: its high melting temperature, high reactivity and unfavorably high solubility in molten salts.

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Molten Salt MIT Batteries Battery 150

Cars That Think

MARCH 11, 2023

They wanted to see whether an electric vehicle could feed electricity back to the grid. The concept behind V2G had gained traction in the late 1990s after California’s landmark zero-emission-vehicle (ZEV) mandate went into effect and compelled automakers to commercialize electric cars. AC Propulsion’s experiment was timely.

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Grid Power Powered Vehicles 138

Cars That Think

DECEMBER 9, 2021

The world’s first-to-market electric pickup truck, it turns out, isn’t from Ford, General Motors, or a late-to-market Tesla Cybertruck. Scaringe—a bespectacled mechanical engineer with a PhD from MIT—a billionaire by the age of 38. Instead, it’s the Rivian R1T, from the California start-up that’s already made founder R.J.

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F-150 Hummer Miles GMC 101

Green Car Congress

JUNE 17, 2015

Yet-Min Chiang (a co-founder of A123 Systems) at MIT, have discovered that a synergetic effect resulting from the addition of both lithium polysulfide and lithium nitrate to ether-based electrolyte prevents dendrite growth on Li-metal anodes and minimizes electrolyte decomposition. Researchers from SLAC and Stanford led by Prof.

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Lithium Sulfur Lithium Air Energy Storage Batteries 150

Cars That Think

JULY 30, 2023

The device’s movements were controlled using electrical signals from an amputee’s residual bicep and tricep muscles. Left: MIT Museum; Right: Stephanie Mitchell/Harvard University Instead, it was Russian scientist Alexander Kobrinski who debuted the first clinically significant myoelectric prosthesis in 1960. What was the Boston Arm?

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Boston MIT Utah Massachusetts 82

Green Car Congress

FEBRUARY 8, 2012

A theoretical investigation of the effects of elastic coherency on the thermodynamics, kinetics, and morphology of intercalation in single lithium iron phosphate nanoparticles by MIT associate professor Martin Z. These characteristics help explain why this material is so good for rechargeable batteries, he says. —Troy Farrell.

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MIT Insight Li-ion Batteries 225

Tony Karrer Delicious EVdriven

APRIL 17, 2009

The Karma, a luxury four-passenger sedan, can be recharged by plugging it in; it can then be driven on power from a battery alone for 50 miles. After that, an onboard gasoline generator kicks on to recharge the battery, extending the range by 250 miles between fill-ups. It takes the Volt about 9 seconds.)

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United States Plug-in Plug Hybrid 30