BEGIN:VCALENDAR VERSION:2.0 PRODID:-//linuxsoftware.nz//NONSGML Joyous v1.4//EN BEGIN:VEVENT SUMMARY:MXenes: energy conversion and storage applications DTSTART:20241127T140000Z DTEND:20241127T160000Z DTSTAMP:20260528T124834Z UID:48380f96-2703-4a06-a0ff-fd2764a58b45 SEQUENCE:2 CREATED:20241122T155650Z DESCRIPTION:Low-cost non-noble metal electrocatalysts are currently the fo cus of research and development for energy conversion and storage devices. MXenes\, the newest class of two-dimensional materials\, first reported i n 2011\, have high surface area\, nanometer layer thickness\, hydrophilici ty and high electrical conductivity that favor their performance for elect rocatalytic reactions. We will introduce niobium carbide MXene obtained fr om its MAX phase by chemical synthesis and characterized regarding its mor phology\, structure and electrochemical activity for oxygen evolution reac tion (OER) and oxygen reduction reaction (ORR) as well as for charge stora ge in different electrolytic media. To further enhance its performance for use in energy storage devices\, heteroatoms can be inserted to adjust the interlayer structure LAST-MODIFIED:20241122T155710Z LOCATION:Sala de Seminários do DF\, Pavilhão de Física\, 2º piso URL:http://df.vps.tecnico.ulisboa.pt/pt/eventos/mxenes-energy-conversion-a nd-storage-applications/ X-ALT-DESC;FMTTYPE=text/html:

Low-cost non-noble metal electrocatalysts are currently the focus of research and development for energy conversion and storage devices. MXenes\, the newest class of t wo-dimensional materials\, first reported in 2011\, have high surface area \, nanometer layer thickness\, hydrophilicity and high electrical conducti vity that favor their performance for electrocatalytic reactions.

We will introduce niobium carbide MXene obtained from its MAX phase by c hemical synthesis and characterized regarding its morphology\, structure a nd electrochemical activity for oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) as well as for charge storage in different elect rolytic media. To further enhance its performance for use in energy storag e devices\, heteroatoms can be inserted to adjust the interlayer structure

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