article thumbnail

Georgia Tech team develops melt-infiltration technique for scalable production of solid-state batteries

Green Car Congress

The melt-infiltration technology developed by materials science researchers at the Georgia Institute of Technology uses solid-state electrolytes with low melting points that are infiltrated into dense, thermally stable electrodes at moderately elevated temperatures (~300? —Professor Gleb Yushin, corresponding author. —Gleb Yushin.

Georgia 312
article thumbnail

Utah-based Energy Fuels to enter commercial rare earth business in Q1-2021

Green Car Congress

Upon a successful ramp-up of this program, Energy Fuels will be the first US company in several years to produce a marketable mixed REE concentrate ready for separation on a commercial scale. The monazite sands will be from Chemours’ Offerman Mineral Sand Plant in Georgia.

Utah 417
article thumbnail

Georgia Tech team develops conversion-type iron-fluoride Li battery cathode with solid polymer electrolyte

Green Car Congress

Researchers at Georgia Tech have developed a promising new conversion-type cathode and electrolyte system that replaces expensive metals and traditional liquid electrolyte with lower cost transition metal fluorides and a solid polymer electrolyte. A paper on their work is published in the journal Nature Materials. —Huang et al.

Polymer 230
article thumbnail

Anellotech planning commercial Bio-TCat plant based on progress in development program

Green Car Congress

Sustainable technology company Anellotech confirmed significant progress in its Bio-TCat technology development program and has begun planning for scale-up design and engineering of a commercial plant with its process development and design partner IFPEN and commercialization, engineering, and licensing partner Axens.

article thumbnail

Georgia Tech team develops simple, low-cost process for oxide nanowires; superior separators for Li-ion batteries

Green Car Congress

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. This technique could open the door for a range of synthesis opportunities to produce low-cost 1D nanomaterials in large quantities.

Low Cost 150
article thumbnail

Phillips 66 receives $3M grant to advance reversible solid oxide fuel cell technology

Green Car Congress

Phillips 66 will collaborate with the Georgia Institute of Technology (Georgia Tech) to demonstrate the commercial feasibility of a low-cost and highly efficient RSOFC system for hydrogen and electricity generation. Phillips 66 will be the research lead on the grant, with Georgia Tech as a collaborative partner.

Grant 321
article thumbnail

DOE awarding >$24M to 77 projects through Technology Commercialization Fund

Green Car Congress

The US Department of Energy (DOE) announced more than $24 million in funding for 77 projects supported by the Office of Technology Transitions (OTT) Technology Commercialization Fund (TCF). Commercializing 3D Printable Feedstocks for the Advanced Manufacturing of Energy Products, $300,000 MilliporeSigma, St. Louis , Mo.