Ultralow-Temperature Supercapacitors Using Porous Carbon Aerogel – Could Power Mars & Polar Missions

Porous Carbon Aerogel Supercapacitor


A porous carbon aerogel improves the low-temperature efficiency of supercapacitors, which might assist provide power for house missions and polar actions. Credit score: Tailored from Nano Letters 2021, DOI: 10.1021/acs.nanolett.0c04780

NASA’s Perseverance Rover not too long ago made a profitable touchdown on Mars, embarking on a two-year mission to hunt indicators of historic life and acquire samples. As a result of Mars is extraordinarily chilly — nighttime temperatures can drop under -112 F — heaters are required to maintain the rover’s battery system from freezing. Now, researchers reporting in ACS’ Nano Letters have 3D printed porous carbon aerogels for electrodes in ultralow-temperature supercapacitors, decreasing heating wants for future house and polar missions.

Jennifer Lu, Yat Li and colleagues wished to develop an power storage system that might function at very low temperatures with out heating models, which add weight and power necessities to devices and equipment, such because the Mars rovers. So the researchers 3D printed a porous carbon aerogel utilizing cellulose nanocrystal-based ink, after which freeze-dried it and additional handled the floor. The ensuing materials had a number of ranges of pores, from the 500-μm pores within the lattice-like construction, to nanometer-sized pores throughout the bars of the lattice.

This multiscale porous community preserved ample ion diffusion and cost switch via an electrode at -94 F, attaining greater power storage capacitance than beforehand reported low-temperature supercapacitors. The group will collaborate with NASA scientists to additional characterize the system’s low-temperature efficiency.

Reference: “Printing Porous Carbon Aerogels for Low Temperature Supercapacitors” 10 March 2021, Nano Letters.
DOI: 10.1021/acs.nanolett.0c04780

The authors acknowledge funding from the Merced Nanomaterials Middle for Vitality and Sensing, NASA, the College of California, Santa Cruz and the U.S. Division of Vitality.





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