Green Car Congress

JANUARY 20, 2017

Researchers at Georgia Tech have developed a simple technique for producing oxide nanowires directly from bulk materials under ambient conditions without the use of catalysts or any external stimuli. The process is believed to be the first to convert bulk powders to nanowires at ambient conditions. —Lei et al. —Gleb Yushin.

Low Cost 150

Low Cost Georgia Li-ion Batteries 150

Green Car Congress

NOVEMBER 16, 2018

Georgia Tech Research Corporation. Georgia Tech will develop a new approach to internally cool permanent magnet motors. Ecolectro is developing alkaline exchange ionomers (AEIs) to enable low-cost fuel cell and electrolyzer technologies. Ionic Materials, Inc. University of California, San Diego.

Engine 247

Engine San Diego Polymer Lithium Ion 247

Green Car Congress

JANUARY 27, 2023

The goal of the project is to continue to develop a circular carbon economy that replaces the petroleum-based chemicals in consumer products with algae-derived and biodegradable polymers. The pilot will consist of a low cost, easy to operate, air blown gasifier coupled with LanzaTech’s second generation bioreactor (2GBR).

Production 225

Production Carbon Conversion Mariner 225

Green Car Congress

AUGUST 1, 2020

Georgia Institute of Technology. ASU’s Polymer-enhanced Cyanobacterial Bioproductivity (AUDACity). Integrated biochemical and electrochemical technologies (IBET) to convert organic waste to biopower via North American research and educational partnerships. Scalable CO 2 electrocatalysis technologies. Project title.

Waste 186

Waste Conversion Universal San Diego 186

Green Car Congress

MAY 19, 2014

The resulting roadmap uses the integration of genetic engineering with analytical chemistry tools to tailor the structure of lignin and its isolation so it can be used for materials, chemicals and fuels, said lead author Arthur Ragauskas, a professor in the School of Chemistry and Biochemistry at the Georgia Institute of Technology.

Production 225

Production Carbon Fiber Polymer Fuel 225

Green Car Congress

APRIL 30, 2010

Today’s technologies for making biofuels all rely on photosynthesis—either indirectly by converting plants to fuels or directly by harnessing photosynthetic organisms such as algae. This process is less than 1% efficient at converting sunlight to stored chemical energy. of Georgia). Electrofuels: Biofuels from Electricity.

Carbon 249

Carbon Batteries Battery Li-ion 249

Green Car Congress

OCTOBER 12, 2017

The pump was developed by researchers from the Georgia Institute of Technology, with collaborators from Purdue University and Stanford University. Thermal energy is of greatest value—that is, has the highest available work or ‘exergy’—when it can be transported, stored and converted at the highest possible temperatures.

Energy Storage 170

Energy Storage Hydrogen Energy Georgia 170