⚡ MXene current collectors could reduce size and improve recyclability of Li-ion batteries
https://techxplore.com/news/2025-10-mxene-current-collectors-size-recyclability.html
#energy #batteries #materials #chemistry #mxene #technology #storage
The vast majority of consumer electronics use lithium-ion batteries, and with each generation, these devices are designed smaller, lighter and with longer battery life to meet the growing demands of consumers. Each new iteration also brings the batteries that power the devices closer to the limits of their size, weight and performance.
Goodbye hydrofluoric acid. A safer, greener way to make MXene could change nanotech forever. #MXene #CleanTech #MaterialsScience
https://geekoo.news/toxic-free-tech-a-safer-way-to-produce-the-wonder-material-mxene/
Referenced link: https://phys.org/news/2023-03-thermal-mxene-spray-coating-harness.html
Discuss on https://discu.eu/q/https://phys.org/news/2023-03-thermal-mxene-spray-coating-harness.html
Originally posted by Phys.org / @physorg_com: http://nitter.platypush.tech/physorg_com/status/1641485199438491661#m
Thermal paint: #MXene spray coating can harness #infraredradiation for heating or cooling https://phys.org/news/2023-03-thermal-mxene-spray-coating-harness.html
An international team of researchers, led by Drexel University, has found that a thin coating of MXene—a type of two-dimensional nanomaterial discovered and studied at Drexel for more than a decade—could enhance a material's ability to trap or shed heat. The discovery, which is tied to MXene's ability to regulate the passage of ambient infrared radiation, could lead to advances in thermal clothing, heating elements and new materials for radiative heating and cooling.
Referenced link: https://phys.org/news/2023-03-mxene-interlayers-proton-hydration.html
Discuss on https://discu.eu/q/https://phys.org/news/2023-03-mxene-interlayers-proton-hydration.html
Originally posted by Phys.org / @physorg_com: http://nitter.platypush.tech/physorg_com/status/1635296082031964161#m
#MXene interlayers: New #proton hydration structure determined @NatureComms https://phys.org/news/2023-03-mxene-interlayers-proton-hydration.html
MXenes are able to store large amounts of electrical energy like batteries and to charge and discharge rather quickly like a supercapacitor. They are thus a very interesting class of materials for energy storage. The material is structured like a kind of pastry, with the MXene layers separated by thin water films. A team at HZB has now investigated how protons migrate in the water films confined between the layers of the material and enable charge transport. Their results have been published in the journal Nature Communications and may accelerate the optimization of these kinds of energy storage materials.
Referenced link: https://phys.org/news/2022-10-mxene-composite-electromagnetic-absorbing.html
Discuss on https://discu.eu/q/https://phys.org/news/2022-10-mxene-composite-electromagnetic-absorbing.html
Originally posted by Phys.org / @[email protected]: https://twitter.com/physorg_com/status/1582745402792882176#m
#MXene composite could eliminate #electromagneticinterference by absorbing it @cellpressnews https://linkinghub.elsevier.com/retrieve/pii/S2666386422003678 https://phys.org/news/2022-10-mxene-composite-electromagnetic-absorbing.html
A recent discovery by materials science researchers in Drexel University's College of Engineering might one day prevent electronic devices and components from going haywire when they're too close to one another. A special coating that they developed, using a type of two-dimensional material called MXene, has shown to be capable of absorbing and disbursing the electromagnetic fields that are the source of the problem.
RT from Semiconductor Engineering (@SemiEngineering)
New technical papers:
#RISCV framework for LiM; #FPGA cybersecurity; #DRAM refresh latency; #memristors; 6-qubit #quantum processor; #MXene transistors; fault inspection; #thermal ML solver; spin-orbit #qubit https://semiengineering.com/technical-paper-roundup-oct-4/
@tudelft #semiconductor @TUChemnitz @CEA_Leti
Original tweet : https://twitter.com/SemiEngineering/status/1577318925737414656
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