The nanomaterial MXene is used for battery technology or as a high-performance lubricant. Until now, its production was difficult and toxic. New methods for its creation have been developed at TU ...

The versatility of MXene materials opens new avenues for resolving future energy demands. Lithium-ion batteries are already a dominant technology in portable and flexible electronics industry. However ...

The team found that a very specific electrochemical technique can be used to improve the electrochemical etching and EC-MXene’s overall quality: well-dosed pulses of current. While the reactivity of ...

The new synthesis method has now been published in the journal Small ("Pulsed Electrochemical Exfoliation for an HF-Free Sustainable MXene Synthesis"). “To produce MXenes, you first need so-called MAX ...

A recent article in Advanced Functional Materials explored the use of MXene-based nanozymes for bioelectricity applications in cancer therapy. MXenes are a class of two-dimensional transition metal ...

Das Nanomaterial MXene wird für Batterietechnologie oder als Hochleistungs-Schmiermittel eingesetzt. Bisher entstanden bei der Herstellung giftige Abfallprodukte. An der TU Wien fand man neue Wege.

MXenes: Changing the World, the 3rd International MXene Conference at Drexel University, August 5-7, 2024, will focus on chemistry and physics of materials, as well as research innovations, new ...

A research group including scientists from Chinese module maker Longi has developed an undoped monocrystalline heterojunction cell that uses the promising MXene compound for the hole transport layer.

A recent article in Advanced Functional Materials explored the use of MXene-based nanozymes for bioelectricity applications in cancer therapy. MXenes are a class of two-dimensional transition ...