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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. The work was supported by BP though the MIT Energy Initiative and the US. A paper describing the new process is published in the journal Nature Chemistry.

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MIT Store Energy Storage Energy 306

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NOVEMBER 19, 2022

MIT researchers led by MIT Professor and colleagues at Brown University have developed an approach to controlling dendrite propagation in solid-state batteries. MIT graduate student Cole Fincher developed a way of making thin cells using a transparent electrolyte, allowing the whole process to be directly seen and recorded.

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MIT Batteries Battery Universal 343

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APRIL 25, 2013

Researchers at MIT are proposing using a variation on pumped hydroelectric systems for storage of electricity produced by offshore wind farms. MIT has filed for a patent on the system. These structures would serve both as anchors to moor the floating turbines and as a means of storing the energy they produce. Earlier post.).

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MIT Energy Storage Renewable Energy 296

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MARCH 26, 2020

A data-driven simulation system invented at MIT, in collaboration with the Toyota Research Institute, to train driverless cars creates a photorealistic world with infinite steering possibilities, helping the cars learn to navigate a host of worse-case scenarios before cruising down real streets. Data-driven simulation. That’s really powerful.

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MIT Cars Environment Engine 339

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JUNE 27, 2021

To try to expand biofuels’ potential impact, a team of MIT engineers has now found a way to expand the use of a wider range of nonfood feedstocks to produce such fuels. The MIT researchers developed a way to circumvent that toxicity, making it feasible to use those sources, which are much more plentiful, to produce biofuels.

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MIT Engine Production Fuel 246

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JULY 27, 2020

The MIT Task Force on the Work of the Future has released a new research brief examining the future of autonomous vehicles.

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MIT Future Environment Auto Industry 294

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NOVEMBER 22, 2018

MIT researchers have demonstrated that an aircraft with a 5-meter wingspan can sustain steady-level flight using ionic-wind propulsion. The MIT team’s final design resembles a large, lightweight glider. This research was supported, in part, by MIT Lincoln Laboratory Autonomous Systems Line, the Professor Amar G. —Xu et al.

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MIT Wind Concept Convert 303

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MARCH 27, 2020

Now, researchers at MIT have found a way to streamline the discovery process using a machine learning system. MIT professor of chemical engineering Heather Kulik says they “are really fascinating, functional materials that are unlike a lot of other material phases. These can exist in a vast number of different forms.

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MIT Design Concept Batteries 380

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JANUARY 15, 2021

Now, MIT engineers are proposing using an ammonia-based selective catalytic reduction (SCR) system that could result in an approximately 95% reduction in NO x emissions in exchange for a ~0.5% The trend towards smaller engine cores with smaller mass flow rates in the core stream, presents new opportunities for emissions control.

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MIT Emissions Hybrid Gas-Electric 268

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JULY 17, 2021

The team analyzed part-level data of material use for seven current year models, ranging from internal combustion engine vehicles (ICEV) to plug-in hybrid vehicles (PHEVs), all provided by Ford.

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MIT PHEV Vehicles Insight 388

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MARCH 26, 2019

Researchers at MIT and in China are proposing a new class of dense intercalation-conversion hybrid cathodes by combining intercalation-type Mo 6 S 8 with conversion-type sulfur (HMSC) to realize a Li–S full cell.

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Lithium Sulfur MIT Li-ion Energy 278

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NOVEMBER 7, 2019

The collaboration began three years ago when Automobili Lamborghini joined the MIT-Italy Program, and took a further step forward in 2017 with the launch of two research projects, one with Professor Mircea Dinc? Located in the bulkhead between cockpit and engine it ensures perfect weight distribution. At MIT, the Dinc?

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MIT Italy Energy Storage Gas-Electric 210

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MARCH 24, 2021

Now, MIT researchers have carried out an exhaustive analysis of the studies that have looked at the decline in the prices these batteries. The new study looks back over three decades, including analyzing the original underlying datasets and documents whenever possible, to arrive at a clear picture of the technology’s trajectory.

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Li-ion MIT Lithium Ion Price 284

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MAY 22, 2014

Researchers at MIT and Stanford University have developed new battery technology for the conversion of low-temperature waste heat into electricity in cases where temperature differences are less than 100 degrees Celsius. The earlier work was based on temperatures of 500 ?C A design for heat recuperation in TREC with heat exchangers (HXs).

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MIT Waste Conversion Batteries 240

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NOVEMBER 11, 2019

Researchers at MIT have determined that growth in aviation causes twice as much damage to air quality as to the climate. —lead researcher Dr Sebastian Eastham, from the Laboratory for Aviation and the Environment in MIT's Department of Aeronautics and Astronautics.

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MIT Climate Emissions Climate Change 265

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SEPTEMBER 11, 2014

has joined the Industrial Fracture Consortium established by Professor Tomasz Wierzbicki from Massachusetts Institute of Technology (MIT). The work will be conducted at the Impact and Crashworthiness Laboratory of MIT in collaboration with Laboratoire de Mécanique des Solides (LMS) at Ecole Polytechnique (France).

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MIT Design Massachusetts France 225

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JANUARY 20, 2017

MIT engineers have genetically engineered strains of the oleaginous yeast Yarrowia lipolytica to boost the production of lipids by about 25% compared to previously engineered yeast strains. The model oleaginous yeast Yarrowia lipolytica has been engineered to improve lipid production.

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MIT Engine Production Oil 150

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JUNE 10, 2019

To further that vision, MIT researchers have given new capabilities to their fleet of robotic boats—which are being developed as part of an ongoing project—that lets them target and clasp onto each other, and keep trying if they fail. Moreover, the roboat notices if it has missed the connection, backs up, and tries again.

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MIT Water Connect Connected 223

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FEBRUARY 3, 2020

A model developed by Researchers at MIT and Qatar Computing Research Institute (QCRI) have developed a model that uses satellite imagery to tag road features in digital maps to help improve GPS navigation. Showing drivers more details about their routes can often help them navigate in unfamiliar locations.

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MIT Qatar Google Connected 273

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AUGUST 6, 2016

Researchers at MIT and startup Novogy have engineered bacteria and yeast ( Escherichia coli , Saccharomyces cerevisiae and Yarrowia lipolytica ) used as producer microbes in biofuel production to use rare compounds as sources of nutrients. The researchers engineered E. Finally, the researchers engineered both S.

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MIT Engine Industrial Industry 150

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JULY 1, 2013

million project is supported by the US Department of Energy (DOE) and National Science Foundation as part of their collaborative research program for advanced combustion engines. Operating principle behind an engine using PFS. Ringing is analogous to knocking in spark-ignited engines.). The 3-year, $1.65-million Earlier post.)

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Engine Fuel Gasoline 2013 314

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MAY 23, 2018

Pierson is joined on the paper by Daniela Rus, the Viterbi Professor of Electrical Engineering and Computer Science; Sertac Karaman, associate professor of aeronautics and astronautics; and Wilko Schwarting, a graduate student in electrical engineering and computer science.

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MIT Cars Environment 2018 186

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MAY 29, 2014

In a companion study to an SAE paper presented in April ( earlier post ), researchers at MIT have quantified the net economic and CO 2 emissions benefit that could be obtained by utilizing 98 RON gasoline in light-duty vehicles, based on reasonable assumptions for possible refinery changes and the evolution of the LDV fleet. billion in 2040.

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Gasoline MIT Design Emissions 230

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JULY 26, 2021

Director of the MIT Computer Science and Artificial Intelligence Laboratory, the Andrew and Erna Viterbi Professor of Electrical Engineering and Computer Science at MIT, and a MacArthur Fellow, and Saman Amarasinghe, Ph.D., a Professor of Electrical Engineering and Computer Science at MIT, as well as Xinxin Du, Ph.D.,

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Transportation MIT Supplies Market 321

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JANUARY 21, 2018

MIT researchers have discovered a way to increase the efficiency of thermoelectric materials threefold by using “topological” materials, which have unique electronic properties. —Te-Huan Liu, a postdoc in MIT’s Department of Mechanical Engineering and lead author.

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MIT Energy Clean Cleaning 207

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AUGUST 28, 2019

Researchers at MIT and the Ford Motor Company have found that depending on the location, lightweight conventional vehicles could have a lower lifecycle greenhouse gas impact than electric vehicles, at least in the near term. Their paper is published in the ACS journal Environmental Science & Technology.

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MIT Ford Vehicles Gasoline-Electric 236

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OCTOBER 28, 2019

To improve the safety of autonomous systems, MIT engineers have developed a system that can sense tiny changes in shadows on the ground to determine if there’s a moving object coming around the corner. The big dream is to provide ‘X-ray vision’ of sorts to vehicles moving fast on the streets.

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MIT Engine Vehicles Environment 150

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FEBRUARY 15, 2019

MIT researchers have now developed a sub-terahertz-radiation receiving system that could help steer driverless cars when traditional methods fail. Joining Han on the paper are first author Zhi Hu and co-author Cheng Wang, both PhD students in in the Department of Electrical Engineering and Computer Science working in Han’s research group.

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MIT Water Cars Design 230

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MARCH 9, 2021

He said the results overturn long-held assumptions about how lithium-ion batteries charge and discharge and give researchers a new set of rules for engineering longer-lasting batteries. Hongbo Zhao/MIT). This uneven pattern stresses the battery and reduces its lifetime.

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MIT Insight Lithium Ion Li-ion 236

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NOVEMBER 28, 2017

MIT researchers have developed a new system that could potentially be used for converting power plant emissions of carbon dioxide into carbon monoxide, and thence into useful fuels for cars, trucks, and planes, as well as into chemical feedstocks for a wide variety of products.

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MIT Convert CO2 Carbon 186

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MARCH 27, 2021

Now, a study at MIT has for the first time analyzed and quantified how bubbles form on these porous electrodes. The work is described in the journal Joule , in a paper by MIT visiting scholar Ryuichi Iwata, graduate student Lenan Zhang, professors Evelyn Wang and Betar Gallant, and three others. —Beta Gallant.

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Water Carbon MIT Gas 418

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JULY 24, 2022

Now, a team of researchers at MIT, the University of Houston, and other institutions have shown that cubic boron arsenide overcomes these two limitations of silicon as a semiconductor material. MIT researchers say cubic boron arsenide is the best semiconductor material ever found, and maybe the best possible one.

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MIT Houston Universal Boston 300

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MAY 31, 2021

A new paper by an MIT team and colleagues in Singapore, China, Italy and Denmark, drawing on global data, finds that people visit places more frequently when they have to travel shorter distances to get there. —Paolo Santi, a research scientist at the Senseable City Lab at MIT and co-author.

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MIT Singapore Global Senegal 170

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FEBRUARY 6, 2019

Researchers at MIT have created a new technique that allows the observation of a metal surface during hydrogen penetration—the process that results in embrittlement of the metal.

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MIT Hydrogen 2019 Environment 207

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SEPTEMBER 2, 2016

Researchers at MIT have carried out the most detailed analysis yet of lithium dendrite formation from lithium anodes in batteries and have found that there are two entirely different mechanisms at work. The MIT team carried out tests at higher current levels that clearly revealed the two distinct types of growth. Brushett and Martin Z.

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MIT Batteries Battery Recharge 170

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APRIL 6, 2021

Cornell researchers led by Lynden Archer, the Joseph Silbert Dean of Engineering and the James A. Friend Family Distinguished Professor of Engineering, have been exploring the use of low-cost materials to create rechargeable batteries that will make energy storage more affordable.

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Batteries Battery Carbon Fiber Lithium Ion 454

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OCTOBER 23, 2020

The recipients of the cooperative research grants are Massachusetts Institute of Technology (MIT), Chattanooga Regional Transportation Authority (CARTA), and Utah State University. The MIT team will improve public transportation service quality, ridership, and energy efficiency by designing a Transit-centric Smart Mobility System platform.

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Transportation MIT Utah Affordable 279