Self-doped graphite nanobelts
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classification
cond-mat.mes-hall
cond-mat.mtrl-scicond-mat.str-el
keywords
graphiteabovematerialmechanicalbehaviorcarrierscavitycharge
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We report that mechanical deformation of graphite with cavity shock waves introduces a new group of charge carriers, with both effective mass and native concentration one order of magnitude above those found in the pristine material. Their nature, however, remains quasi-2D. Our results show that defects introduced during mechanical exfoliation have the potential to unlock oscillatory behavior above 50 T in graphite, thus providing a new probe for field-induced electronic phase transitions in the material.
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