2D Transition Metal Carbides, colloquially known as MXenes, stand out as a captivating category of materials that has garnered considerable attention within the realm of materials science. These compounds boast a distinctive layered structure, featuring interleaved transition metal carbide layers separated by functional groups. The resultant 2D sheets display exceptional electronic, thermal, and mechanical properties, positioning them as highly promising candidates for a diverse array of applications.
An outstanding characteristic of 2D transition metal carbides is their remarkable conductivity, surpassing that of many conventional conductive materials. This exceptional trait, combined with their expansive surface area and modifiable surface chemistry, renders MXenes highly appealing for applications in energy storage, such as supercapacitors and batteries. Moreover, the unique physicochemical properties of MXenes make them a compelling choice for applications in catalysis, sensing, and even biomedical fields. As ongoing research in this domain progresses, the synthesis, characterization, and application of 2D transition metal carbides continue to unveil novel possibilities for cutting-edge technologies and materials that hold substantial promise across diverse industries.
Thomas J Webster
Hebei University of Technology, United States
Hossein Hosseinkhani
Innovation Center for Advanced Technology, Matrix, Inc., United States
Hai Feng Ji
Drexel University, United States
Paulo Cesar De Morais
Catholic University of Brasilia, Brazil
Azzedine Bensalem
Long Island University, United States
Robert Buenker
Wuppertal University, Germany
Rafal Kozubski
Jagiellonian University in Krakow, Poland
Sylwia Wcislik
Kielce University of Technology, Poland
Raman Singh
Monash University-Clayton Campus, Australia
Michael I Tribelsky
Moscow State University, Russian FederationSubmit your abstract Today
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