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Abstract We report the formation of a novel faceted carbon-foam (CFM) phase by re-crystallization of recently discovered sp3-rich α−Fe filled CFM. The formation of this novel carbon material is found by… Click to show full abstract
Abstract We report the formation of a novel faceted carbon-foam (CFM) phase by re-crystallization of recently discovered sp3-rich α−Fe filled CFM. The formation of this novel carbon material is found by increasing the cooling-rate factor after the annealing stage. High cooling rates can therefore create the right thermodynamic conditions for FeO crystallization with consequent modification of the carbon-surface-characteristics and sharp increase in the sp3-carbon content. In addition a possible dependence of the sp3 content on the crystal-habit of the encapsulated oxide is found. This observation is confirmed by additional measurements in CFM-samples filled with variable quantities of maghemite/hematite phases obtained with slow cooling experiments. This method has a crucial importance since it can allow the control of surface-carbon-characteristics by modification of the encapsulated oxide crystal-habit phases.
Journal Title: Materials today communications
Year Published: 2018
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