TY - JOUR
T1 - Potential of MXenes as a novel material for spintronic devices
T2 - a review
AU - Amrillah, Tahta
AU - Hermawan, Angga
AU - Cristian, Yeremia Budi
AU - Oktafiani, Agustina
AU - Dewi, Diva Meisya Maulina
AU - Amalina, Ilma
AU - Darminto, None
AU - Juang, Jenh Yih
N1 - Publisher Copyright:
© 2023 The Royal Society of Chemistry.
PY - 2023/6/22
Y1 - 2023/6/22
N2 - The search for materials for next-generation spintronic applications has witnessed exponentially increasing interest, mainly due to the explosive development of numerous two-dimensional (2D) materials discovered in the last decade. Among them, MXenes have emerged as promising candidates for many applications due to their unique and versatile tunability in structure and properties. In particular, their excellent combination of conductivity and highly charged surfaces leads to outstanding electrochemical properties that are significant in electronic applications. Moreover, the ease of modifying the atomic and electronic structures, and thus the functionalities of MXenes, further opens up the opportunity to realize MXenes-based spintronic device applications. The explosive development of MXenes, such as tuning the bandgap and enhancing their magnetic properties, could pave the way for the integration of MXenes in device configurations suitable for spintronics. In this article, we provide an overview of the potential applications of MXenes with a special focus on spintronic device applications. We commence the discussion with various fundamental aspects of spintronics, including the understanding of materials for spintronics in general, MXenes, and their fabrication, followed by presenting perspectives on plausible strategies and future challenges in integrating MXenes into spintronic devices.
AB - The search for materials for next-generation spintronic applications has witnessed exponentially increasing interest, mainly due to the explosive development of numerous two-dimensional (2D) materials discovered in the last decade. Among them, MXenes have emerged as promising candidates for many applications due to their unique and versatile tunability in structure and properties. In particular, their excellent combination of conductivity and highly charged surfaces leads to outstanding electrochemical properties that are significant in electronic applications. Moreover, the ease of modifying the atomic and electronic structures, and thus the functionalities of MXenes, further opens up the opportunity to realize MXenes-based spintronic device applications. The explosive development of MXenes, such as tuning the bandgap and enhancing their magnetic properties, could pave the way for the integration of MXenes in device configurations suitable for spintronics. In this article, we provide an overview of the potential applications of MXenes with a special focus on spintronic device applications. We commence the discussion with various fundamental aspects of spintronics, including the understanding of materials for spintronics in general, MXenes, and their fabrication, followed by presenting perspectives on plausible strategies and future challenges in integrating MXenes into spintronic devices.
UR - http://www.scopus.com/inward/record.url?scp=85165347158&partnerID=8YFLogxK
U2 - 10.1039/d3cp01261a
DO - 10.1039/d3cp01261a
M3 - Review article
C2 - 37409617
AN - SCOPUS:85165347158
SN - 1463-9076
VL - 25
SP - 18584
EP - 18608
JO - Physical Chemistry Chemical Physics
JF - Physical Chemistry Chemical Physics
IS - 28
ER -