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Dear colleagues,
Finding high-temperature superconductivity has long been a challenging quest for the scientific community, specifically when considering the constraints of low pressures. The recent advancements in researches have brought a fresh perspective to this intricate field by shedding light on the promising potential of metal superhydrides when interacting with carbonaceous surfaces. Through these studies, a groundbreaking revelation has emerged a remarkable high-temperature superconductivity phenomenon that is observed at low pressure conditions. These findings indicate the significant role played by the carbon atoms in observing high-temperature superconductivity in these materials.
These pivotal discoveries have sparked interest and enthusiasm among researchers, culminating in the establishment of a specialized section in our journal dedicated to delving deeper into this cutting-edge area of study. Our journal enthusiastically invites and encourages innovative research endeavors that delve into the exploration of superconductivity within carbonaceous structures. This encompasses investigations into graphene, graphite, carbon nanotubes, and other carbon-based materials across three or lower dimensions, aiming to uncover new mechanisms, new materials, and phenomena with potential applications in both scientific and industrial domains.
We actively seek submissions that explore various aspects of superconductivity, including computing response functions, critical temperatures, phase diagram, critical current density and other thermodynamic properties, localized calculations related to cooper pair formation, the Josephson effect, and Josephson junctions by utilizing many-body techniques such as density functional theory, first-principle calculations. Both experimental and theoretical works are warmly welcomed to enrich our collective comprehension of superconductivity in these distinctive structures.
In conclusion, our journal remains steadfast in its commitment to fostering a collaborative environment that empowers researchers to propel the exploration of superconductivity within carbonaceous structures to new heights. We eagerly anticipate and look forward to receiving contributions that not only expand the boundaries of knowledge but also drive progress in this captivating field of study.