Ferromagnetism and Superconductivity in Carbon-Based Systems
Y. Kopelevich, P. Esquinazi
TL;DR
This paper reviews experimental evidence for intrinsic ferromagnetism and high-temperature superconductivity in carbon-based materials, highlighting the roles of structural disorder and light elements like hydrogen, oxygen, and sulfur.
Contribution
It provides a comprehensive review of recent experimental findings suggesting intrinsic magnetic and superconducting phenomena in carbon systems without magnetic impurities.
Findings
Evidence of intrinsic ferromagnetism in carbon materials
High-temperature superconductivity observed in certain carbon systems
Structural disorder and light elements are key to these phenomena
Abstract
In this article we shortly review previous and recently published experimental results that provide evidence for intrinsic, magnetic-impurity-free ferromagnetism and for high-temperature superconductivity in carbon-based materials. The available data suggest that the origin of those phenomena is related to structural disorder and the presence of light elements like hydrogen, oxygen and/or sulfur.
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