Abstract:SnO2 has been considered as a promising anode
material
for lithium-ion batteries due to its high theoretical specific capacity
(782 mA h g–1), low price, eco-friendliness, and
high natural abundance. However, SnO2-based anodes undergo
a large volume change during lithiation and de-lithiation, leading
to electrode cracking and high initial irreversible capacity. In this
work, we report a renewable biomass flax-derived amorphous carbon@SnO2@graphene composite (PFC@SnO2@rGO). It exhibits
great cycle stability and… Show more
“…A type of amorphous carbon, polluted, and superficial carbon can all be responsible for the peak at 284.8 eV. 34 The other peak indicates the presence of g-C 3 N 4 in the composites at 288 eV, which corresponds to sp 2 C atoms engaged in C 3 N 3 triazine cycles. 35…”
Chromium (VI) regarded as a major pollution of the ecosystem because to its extremely hazardous and cancer-causing nature. Consequently, there is a great need for inexpensive, very sensitive Cr (VI)...
“…A type of amorphous carbon, polluted, and superficial carbon can all be responsible for the peak at 284.8 eV. 34 The other peak indicates the presence of g-C 3 N 4 in the composites at 288 eV, which corresponds to sp 2 C atoms engaged in C 3 N 3 triazine cycles. 35…”
Chromium (VI) regarded as a major pollution of the ecosystem because to its extremely hazardous and cancer-causing nature. Consequently, there is a great need for inexpensive, very sensitive Cr (VI)...
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