Green Car Congress

AUGUST 13, 2023

A joint research team from City University of Hong Kong (CityU) and collaborators have developed a stable artificial photocatalytic system that is more efficient than natural photosynthesis. The new system mimics a natural chloroplast to convert carbon dioxide in water into methane, very efficiently using light.

Convert 369

Convert Carbon Fuel Water 369

Green Car Congress

APRIL 11, 2021

.) – Developing ion-exchange membranes (IEM) and polymers used for electrochemical applications in order to reduce the use of cost-prohibitive and toxic materials. Applications include green hydrogen production, hydrogen fuel cells and carbon capture and utilization (CCU).

Hydrogen 418

Hydrogen Green Polymer Powered 418

Green Car Congress

MARCH 20, 2020

Currently the most popular system used for water electrolysis for hydrogen production relies on precious metals as catalysts. The research team worked to solve this problem by splitting water under alkaline, or basic, conditions with an anion exchange membrane electrolyzer. V without a corrosive circulating alkaline solution.

Water 186

Water Hydrogen Washington Polymer 186

Green Car Congress

SEPTEMBER 25, 2017

The clean technology company Danish Power Systems (DPS), with partners at the Technical University of Denmark (DTU) and the University of Chemistry and Technology in Prague, Czech Republic, reports the best operating stability for high-temperature polymer fuel cells (HTPEMFC) yet. μV h −1 for a reference membrane.

Polymer 170

Polymer Czech Republic Fuel Powered 170

Green Car Congress

SEPTEMBER 4, 2018

A new study, led by academics at St John’s College, University of Cambridge, has used semi-artificial photosynthesis to explore new ways to produce and store solar energy. They used natural sunlight to convert water into hydrogen and oxygen using a mixture of biological components and manmade technologies. Katarzyna P.

Water 210

Water Solar Store Hydrogen 210

Green Car Congress

AUGUST 22, 2016

The National Science Foundation (NSF) has made 11 awards totaling $55 million aimed at building research capacity to develop new innovations at the intersection of food, energy and water systems and to address fundamental questions about the brain. Research at the nexus of food, energy and water. Montana State University.

Water 150

Water Puerto Rico West Virginia Energy 150

Green Car Congress

MAY 16, 2014

Using a novel computational chemistry hybrid approach, scientists from IBM Research have successfully discovered a new class of polymer materials—the first new class of polymers discovered in more than 20 years—that could potentially transform manufacturing and fabrication in the fields of transportation, aerospace, and microelectronics.

Polymer 275

Polymer Industrial Industry Saudi Arabia 275

Green Car Congress

NOVEMBER 3, 2020

Fast Startup Time: Develop extremely stable fuel-cells that can start under nearly water-saturated conditions. Various industry sources have stated that radiators for Class 8 Trucks running with low-temperature polymer electrolyte membrane (LT-PEM) technology are an enormous challenge.

Austin 435

Austin Fuel Toyota Hydrogen 435

Green Car Congress

OCTOBER 22, 2013

Researchers at the University of Colorado Boulder and Singapore University of Technology and Design have added a “fourth dimension” to additive manufacturing technology, opening up possibilities for the creation and use of adaptive, composite materials in manufacturing, packaging and biomedical applications. A team led by H.

Polymer 246

Polymer Concept Singapore MIT 246

Green Car Congress

JUNE 15, 2015

Researchers led by a team from Griffith University in Australia have developed a multifunctional polymer binder that not only maintains the outstanding binding capabilities of sodium alginate but also enhances the mechanical integrity and lithium-ion diffusion coefficient in a LiFePO 4 (LFP) electrode during the operation of the batteries.

Li-ion 150

Li-ion Polymer Lithium Ion Sodium 150

Green Car Congress

MARCH 31, 2014

A team led by researchers from Georgia Tech have used an electropolymerization process to produce aligned arrays of polymer nanofibers that function as a thermal interface material able to conduct heat 20 times better than the original polymer. Virendra Singh, a research scientist in the George W. —Baratunde Cola.

Polymer 230

Polymer Georgia Austin Texas 230

Green Car Congress

DECEMBER 10, 2014

volts (V) of water-splitting voltage with its novel low-cost electrolysis technology. The theoretical minimum voltage needed to split water molecules into hydrogen and oxygen is 1.23 Nanosystem for water electrolysis. HyperSolar, Inc. announced that it had reached 1.25 V (at 25 °C at pH 0). Click to enlarge.

Low Cost 246

Low Cost Water Hydrogen Solar 246

Green Car Congress

JUNE 29, 2020

a low cost, raw materials that do not raise concerns in terms of supply bottlenecks (electrodes that do not include PGMs, stainless steel current collectors), a compact design, the adoption of feeds based on non-corrosive liquids (low concentration alkali or DI water), and differential pressure operation.

Hydrogen 433

Hydrogen Production Polymer Italy 433

Green Car Congress

JULY 21, 2020

Advanced Manufacturing Processes for Gigawatt-Scale Proton Exchange Membrane Water Electrolyzer Oxygen Evolution Reaction Catalysts and Electrodes. University of Kentucky. University of Virginia. Antioxidant Functionalized Polymers for Extended HD Polymer Electrolyte Membrane Lifetimes. Project title. 3M Company.

Carbon Fiber 321

Carbon Fiber Hydrogen Low Cost Polymer 321

Green Car Congress

SEPTEMBER 14, 2015

Researchers at Carnegie Mellon University have discovered how nanoscale polymer films limit future cost reductions in fuel cell electric vehicles. Researchers agree that polymer electrolyte films that are only tens of nanometers thick are in some way responsible. The results were reported in a paper in the ACS journal Langmuir.

Polymer 150

Polymer Commercial Fuel Transportation 150

Green Car Congress

APRIL 26, 2012

The US Department of Energy (DOE) announced that the use of an alkaline surfactant polymer (ASP) flooding technique has successfully improved oil recovery at a 106-year old Illinois field by more than 300%. Polymer is added to protect the chemical slug from early dissipation by the driving water phase. water production.

Polymer 218

Polymer Illinois Oil 2000 218

Cars That Think

APRIL 29, 2023

It was very curiosity-driven,” says Isak Engquist, a professor at Linköping University who led the effort. “We Isak Engquist, Linköping University Even though the wooden transistor still awaits its killer app, the idea to build wood-based electronics is not as crazy as it sounds. We thought: ‘Can we do it?

Polymer 145

Polymer Universal Water Transportation 145

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JULY 18, 2020

With this application in mind, we created spirocyclic polymers with N-aryl bonds that demonstrated noninterconnected microporosity in the absence of ladder linkages. The resulting glassy polymer membranes demonstrated nonthermal membrane fractionation of light crude oil through a combination of class- and size-based “sorting” of molecules.

Georgia 337

Georgia London Oil Polymer 337

Green Car Congress

SEPTEMBER 20, 2016

Cooper Tire & Rubber Company, working as the lead agency in the grant, announced that its scientists have reached a key milestone toward the goal of producing, by mid-2017, a concept tire in which all of the natural and synthetic rubber is replaced by guayule-based polymers. Earlier post.). The results are highly promising.

Polymer 150

Polymer Grant United States 2017 150

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NOVEMBER 24, 2020

By making use of a previously undesired side effect in oil recovery, researchers at Tokyo University of Agriculture and Technology (TUAT) have developed a method that yields up to 20% more heavy oil than traditional methods. To yield more oil, water may be injected into the reservoir to maintain pressure in order to keep the flow moving.

Oil 243

Oil Water Sodium Polymer 243

Green Car Congress

JULY 7, 2015

The lead inventors of the technology are UCSB professor Dr. Alan Heeger, the recipient of a Nobel Prize in 2000 for the discovery and development of conductive polymers, and Dr. David Vonlanthen, a project scientist and expert in energy storage at UCSB. Startup BioSolar, Inc. Startup BioSolar, Inc. Both are scientific advisors to BioSolar.

Polymer 150

Polymer Li-ion Low Cost 2014 150

Green Car Congress

FEBRUARY 18, 2020

The project concerns the production of hydrogen at scale from offshore floating wind in deep water locations. The concept consists of a large-scale floating wind turbine (nominally 10 MW) with an integrated water treatment unit and electrolyzers for localized hydrogen production. Led by Cranfield University. Contract value: £7.48

Hydrogen 386

Hydrogen Carbon Production Wind 386

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SEPTEMBER 29, 2011

(a) Chemical structure of the PEDT:PSSH polymer blend. (b) A team from the National University of Singapore's Nanoscience and Nanotechnology Initiative (NUSNNI), led by principle investigator Dr. Xian Ning Xie, has developed a polystyrene membrane-based supercapacitor that they say will be easier to scale up than the current alternatives.

Energy Storage 259

Energy Storage Singapore Universal Polymer 259

Cars That Think

JULY 13, 2024

In a new paper, roboticists from The Faboratory at Yale University have given a soft robot the ability to detach and reattach pieces of itself, editing its body morphology when necessary. It even stands up to dirt and water reasonably well. It’s a little freaky to watch, but it kind of makes me wish I could do the same thing.

Polymer 138

Polymer Escape Connected Connect 138

Green Car Congress

JANUARY 9, 2015

The new Institute for Advanced Composites Manufacturing Innovation (IACMI), announced today by President Obama, will focus on advanced fiber-reinforced polymer composites that combine strong fibers with tough plastics to yield materials that are lighter and stronger than steel. Adherent Technologies, Inc.; Honda R&D Americas, Inc.;

Tennessee 150

Tennessee Universal Manufacturer Honda 150

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MARCH 22, 2011

Researchers at Case Western University have developed catalysts made of carbon nanotubes dipped in a polymer solution that equal the energy output and otherwise outperform platinum catalysts in fuel cells. Credit: ACS, Wang et al. Click to enlarge. A paper on their work is published in the Journal of the American Chemical Society.

Polymer 270

Polymer Carbon Fuel Hydrogen 270

Green Car Congress

JUNE 19, 2022

Researchers at King Abdullah University of Science and Technology (KAUST) have developed a process for fabricating polytriazole membranes with 10-nanometer-thin selective layers containing subnanometer channels. I'm always looking for polymers that can take challenges that are not possible with a very simple membrane.

Oil 186

Oil Energy Polymer Carbon 186

Green Car Congress

JUNE 23, 2015

Researchers at Stanford University have developed a new low-voltage, single-catalyst water splitter that continuously generates hydrogen and oxygen. In the reported study, the new catalyst achieved 10 mA cm −2 water-splitting current at only 1.51 V V to reach 10 mA cm −2 current (for integrated solar water splitting).

Water 150

Water Hydrogen Production Li-ion 150

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AUGUST 14, 2018

Awards in this topic area, with the Federal share, include: Northeastern University: Developing Platinum Group Metal-Free Catalysts for Oxygen Reduction Reaction in Acid: Beyond the Single Metal Site. Indiana University, Purdue University: Mesoporous Carbon-based PGM-free Catalyst Cathodes. 1,997,216. . 600,000. . Giner, Inc.:

Hydrogen 186

Hydrogen Fuel Universal Polymer 186

Green Car Congress

APRIL 19, 2018

Researchers at Jilin University in China have developed a new class of self-assembled crystalline porous organic salts (CPOSs) featuring high proton conductivity for applications such as proton-exchange membranes for fuel cells. The pores in the salts form one-dimensional channels and can hold water. —Xing et al.

Fuel 218

Fuel Water Polymer Hydrogen 218

Green Car Congress

DECEMBER 2, 2018

a developer of low-cost, high-performance polymers for electrochemical applications, announced its selection by the US Department of Energy’s Advanced Research Projects Agency-Energy (ARPA-E) for an award that will support the continued development of its alkaline exchange ionomers and membranes. 3) Perfluorinated polymers (i.e.,

Fuel 261

Fuel Polymer New York Hydrogen 261

Green Car Congress

MARCH 10, 2018

Water flow through the membranes was 1000 times higher than predicted by Hagen-Poiseuille flow, in agreement with previous CNT membrane studies. A) SEM image of the CNT membrane surface, showing CNT tips emerging from the polymer. The CNTs used in the membranes were arc discharge nanotubes with inner diameters of 0.67 Click to enlarge.

Carbon 199

Carbon Fuel Polymer Austin 199

Green Car Congress

SEPTEMBER 2, 2016

Researchers at Stanford University and the Department of Energy’s SLAC National Accelerator Laboratory have developed a new highly active and stable IrO x /SrIrO 3 catalyst for the oxygen evolution reaction (OER). Dickens/Stanford University) Click to enlarge. The team published their results in the journal Science.

Water 170

Water Renewable Charlotte Fuel 170

Green Car Congress

AUGUST 1, 2020

University of Alabama. University of North Dakota. North Carolina State University. Oregon State University. University of Cincinnati. University of Maryland - College Park. Princeton University. University of Illinois at Urbana-Champaign. Utah State University. Montana State University.

Waste 186

Waste Conversion Universal San Diego 186

Green Car Congress

JULY 25, 2020

Scientists from ExxonMobil, University of California, Berkeley and Lawrence Berkeley National Laboratory have developed a new material that could capture more than 90% of CO 2 emitted from industrial sources using low-temperature steam, requiring less energy for the overall carbon capture process. UC Berkeley graphic by Eugene Kim).

Carbon 414

Carbon F-150 Emissions Water 414

Green Car Congress

OCTOBER 19, 2021

Twelve has developed an efficient polymer-electrolyte membrane (PEM) CO 2 electrolyzer that uses proprietary CO 2 -reducing catalysts to split CO 2 with just water and renewable electricity as inputs, syngas (CO and hydrogen) as the output, and pure oxygen as the only byproduct. —Twelve Co-Founder and CEO Nicholas Flanders.

Fuel 339

Fuel CO2 Carbon Polymer 339

Green Car Congress

SEPTEMBER 4, 2019

Now a team led by researchers at Rice University has achieved continuous electrocatalytic conversion of CO 2 to pure liquid fuel solutions in cells that utilize solid electrolytes, in which electrochemically generated cations (such as H + ) and anions (such as HCOO ? Illustration by Chuan Xia and Demin Liu. —Chuan Xia.

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Saudi Arabia CO2 Fuel Water 207