Abstract
We report on magnetic studies of inhomogeneous commercial and synthesized amorphous carbon (a-C) and a-C doped with sulfur (a-CS) powders which exhibit (i) peculiar magnetic behavior and (ii) traces of two superconducting (SC) phases TC ~ 33 and at 65 K. (i) The temperature dependence of zero-field-cooled (ZFC) curves measured up to room temperature show well distinguished elusive peaks at around 50–80 K, and their origin is not yet known. These peaks are totally washed-out in the second ZFC sweeps and in the FC branches as well. As a result, in the vicinity of the peaks, the FC curves lie below the ZFC peaks (FC < ZFC), a phenomenon which is rarely observed. These magnetic anomalies are intrinsic properties of a-C and a-CS materials (ii) SC was observed in three different a-C sources: (a) The commercial a-C powder contains 0.21% of sulfur and it is suggested that two different a-CS phases (at 33 and 65 K) are the origin of the two SC states observed. The compositions of these two phases are not yet unknown. The small SC volume fractions of the 33 K phase can be enhanced by a solid reaction with additional sulfur at 250 °C; (b) the synthesized (a-C) powder (obtained from decomposition of sucrose) is not SC. However, when mixed with sulfur and heated at 400 °C under a protective atmosphere, the a-CS powder obtained also show traces of a SC phase at TC = 42 K; (c) The same occurs in a-C thin films. The as-grown films are not SC but a SC phase at TC = 34 K emerges after the films were reacted with sulfur at elevated temperatures. It is concluded, therefore, that all SC phases observed are due to different unknown a-CS phases. Since the a-C and a-CS powders possess SC and magnetic states, we believe that these powders resemble the high TC curates and Fe-As based systems in which the SC and the magnetic states are closely related to each other.
Highlights
Interest in magnetic nano-sized particles has increased in the last few years by virtue of their potential for application
The magnetic properties of two Amorphous carbon (a-C) sources have been extensively studied and reported [4]: (a) A inhomogeneous commercial Fisher powder dated from 1935 and (b) fabricated a-C powder obtained by multi-stage melting of ultra-pure sucrose (C12H22O11). (a) Energy dispersive spectroscopy (EDS) study proved that the commercial powder contains: tiny amounts of sulfur (~0.21 at %), ~360 ppm of ferri-magnetic magnetite (Fe3O4) TM = 853 K) and other paramagnetic (PM) ions such as Ni and Mn
The extensive zero-field-cooled (ZFC) and field-cooled (FC) magnetic studies exhibit scatter results. (i) Most of the samples presented the ferri-magnetic behavior of magnetite, and at low temperatures, the PM ions’ contribution; (ii) A few samples exhibited well-observed magnetic peaks in their first ZFC curves; (iii) The rest showed traces of two SC phases with TC around 33 and 65 K
Summary
Interest in magnetic nano-sized particles has increased in the last few years by virtue of their potential for application. (a) Energy dispersive spectroscopy (EDS) study proved that the commercial powder contains: tiny amounts of sulfur (~0.21 at %), ~360 ppm of ferri-magnetic magnetite (Fe3O4) TM = 853 K) and other paramagnetic (PM) ions such as Ni and Mn. Due to its inhomogeneity, the extensive zero-field-cooled (ZFC) and field-cooled (FC) magnetic studies exhibit scatter results.
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