Green Car Congress

JANUARY 26, 2021

Researchers at MIT have developed a method that could significantly boost the performance of carbon capture and conversion systems that use catalytic surfaces to enhance the rates of carbon-sequestering electrochemical reactions. The movement through water is sluggish, which slows the rate of conversion of the carbon dioxide.

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MIT Conversion Carbon Water 413

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MARCH 12, 2011

hydrocarbons (propane and propylene) from renewable biomass via the hydrothermal conversion of well-known fermentation end-products (butyric acid and 3-hydroxybutyrate) without the use of exogenous hydrogen. Butyric acid decarboxylates in supercritical water to give propane as the major product at 454 °C and 25 MPa.

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Production MIT Water Universal 278

Green Car Congress

OCTOBER 7, 2010

Sun Catalytix is developing catalysts that use intermittent renewable energy, including solar and wind energy, to split water into storable hydrogen and oxygen—a process that mimics photosynthesis. —MIT Professor and Sun Catalytix Founder Daniel Nocera.

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Land Rover Energy Storage MIT Wind 186

Green Car Congress

APRIL 29, 2015

JCAP researchers are focused on achieving the major scientific breakthroughs needed to produce liquid transportation fuels from a combination of sunlight, water, and carbon dioxide, using artificial photosynthesis. The research program involves eight core projects: Light Capture and Conversion.

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Solar Fuel Water Light 150

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APRIL 30, 2010

Electrofuels approaches will use organisms able to extract energy from other sources, such as solar-derived electricity or hydrogen or earth-abundant metal ions. Novel Biological Conversion of Hydrogen and Carbon Dioxide Directly into Biodiesel. Reducing equivalent: Hydrogen; Organism: Cupriavidus necator; Product: Biodiesel.

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Carbon Batteries Battery Li-ion 249

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MAY 15, 2021

As a result, there is a critical need to create new pathways for biofuel conversion that reduces carbon waste, prevents the loss of CO 2 emissions, and in turn, maximizes the amount of renewable fuel a conversion process yields. A Microbial Consortium Enables Complete Feedstock Conversion - $1,574,966.00. University of Delaware.

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Carbon Production Conversion Universal 303

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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. Advanced Li-ion and multivalent ion batteries.

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MIT Li-ion Batteries Battery 150

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JUNE 17, 2013

The new MIT proces converts furfural into GVL via a series of cascading (domino-like) reactions catalyzed by zeolites with Lewis and Brønsted acid sites. The new MIT production method, described in the June 11 issue of the journal Angewandte Chemie , eliminates both of those obstacles. Credit: Bui et al. Click to enlarge.

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MIT Hydrogen Convert Water 170

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NOVEMBER 16, 2010

Conversion kits also will be available to switch medium-duty gasoline vehicles to run on propane. Researchers at MIT had earlier demonstrated the ability to make biopropane (LPG from corn or sugarcane) using a supercritical water process, and created a startup (C3 BioEnergy) in 2007 that attempted to commercialize the technology.

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USA Engine Alternative Fuels Gasoline 239

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APRIL 1, 2014

However, such arguments have been difficult to justify quantitatively, the MIT team notes; quantitative estimates of direct volcanic outgassing are much too small to account for the changes in the carbon cycle. Other proposals suggest secondary effects of the volcanism—such as raging coal fires—as the mechanism.

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MIT Mariner Carbon China 210

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MARCH 5, 2013

A team of researchers at MIT has described a framework for efficiently coupling the power output of a series-connected string of single-band-gap solar cells to an electrochemical process that produces storable fuels. Such a system would use sunlight to produce a storable fuel, such as hydrogen, instead of electricity for immediate use.

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MIT Low Cost Solar Fuel 218

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FEBRUARY 15, 2022

The MIT will develop a new generation of power electronics based on vertical gallium nitride (GaN) superjunction diodes and transistors that can vastly exceed the performance of today’s GaN power devices. A Zero-emission Process for Direct Reduction of Iron by Hydrogen Plasma in a Rotary Kiln Reactor - $1,200,000. Stanford University.

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Clean Cleaning Energy Li-ion 284

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MARCH 25, 2016

The research, published in the journal Science , outlines a potential way to make a future generation of water-splitting catalysts from three abundant metals—iron (Fe), cobalt (Co) and tungsten (W)—rather than the rare, costly metals on which many of today’s catalysts rely. For this study, Edward H. —Edward Sargent.

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Water Ni-Li Universal MIT 150

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NOVEMBER 28, 2012

Natural Gas Reactor for Remote Chemical Conversion. decrease water use compared to conventional algae reactors. convert natural gas into methanol and hydrogen. The Massachusetts Institute of Technology (MIT) will develop a. deployed remotely, MIT’s reformer could be used for small, remote sources of gas.

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2012 Energy Lithium Sulfur Conversion 240

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MARCH 7, 2011

The ethane subsequently undergoes dehydrogenation to form ethylene and water. In a presentation at the Spring 2006 AIChE national meeting, researchers from Mesoscopic Devices noted that today’s catalysts exhibit either high selectivity (>70%) coupled with low conversion ( 75%) with low selectivity. ” —Alex Tkachenko.

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Conversion Transportation Fuel Carbon 274