Beilstein J. Nanotechnol.2020,11, 1217–1229, doi:10.3762/bjnano.11.106
descriptors to the obtained capacities remains a scientific challenge.
Keywords: alkaline-ion secondary battery; gas sorption porosimetry; hard carbon; irreversible capacity; ultramicroporosity; Introduction
Lithium-ion battery (LIB)-based energy storage devices have been gaining high interest in the recent
with decreasing ultramicroporosity [20]. This finding is in contrast to the results from Dahn and co-workers [17][19]. Apparently, the understanding of the role of specific textural features of disordered carbons for alkaline ion storage remains difficult, also leaving uncertainty about the potential
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Figure 1:
SEM images of HT carbons: a) HT1, b) HT2, c) HT3, d) HT4, e) HT5 and f) HT6.