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Ordered Gyroidal Mesoporous Carbon and Uses in Batteries and Other Energy Applications

详细技术说明: This invention introduces a gyroidal mesoporous carbon composition and a silica-free, metal- and halogen-free process that offers exceptional conductivity properties, stability, chemical inertness and low density.

*Abstract

Cornell researchers have developed gyroidal mesoporous carbon matrix via a silica-free, metal- and halogen-free process that offers exceptional conductivity properties, stability, chemical inertness and low density. Due to organic-organic assembly, the pore sizes are large, narrowly dispersed and reproducible. Both double and single gyroidal carbon networks have been synthesized.

Technical Merits

Reduces typical diffusion distance from micronsto nanometers, resulting in a reduction in diffusion time by 106
The synthesis eliminates undesirable extra stepsfor removal of hazardous chemicals
High thermal stability to at least 1600ºC
Large mesoporosity up to 1.77 cm3/g.

Potential Applications

Electrodes in fuel cells, batteries, and supercapacitors

Advantages

Increased surface area as compared to linear pores orcurrent standard batteries
Functions independent of orientation due to gyroidal poreshape
Batteries could charge in minutes versus hours, for currenttechnology, due to decrease in diffusion distance
Three-dimensionally connected porosity allows for goodaccessibility and prevents total pore blockage while the continuous carbonmatrix acts as a conductive framework
Overcomes the large ohmic losses that occur in similarmaterials that contain a polymeric binder

*Licensing: Jeff Fearnjcf55@cornell.edu607-254-4502

其他

Patent issued in the U.S. 9,714,173.
Werner Jörg G., et al. (2014). Synthesis and Characterizationof Gyroidal Mesoporous Carbons and Carbon Monoliths with Tunable UltralargePore Size. ACS Nano, 8 (1), pp731–743. DOI: 10.1021/nn405392t
Werner Jörg G., et al. (2014). Gyroidal mesoporousmultifunctional nanocomposites via atomic layer deposition. Nanoscale, 2014,6,8736-8742. DOI: 10.1039/C4NR01948B.
“Self-Assembling3D Battery Would Charge in Seconds” Cornell Chronicle, May 16, 2018

国家/地区: 美国

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