Integration of two-dimensional graphene and one-dimensional carbon nanotubes (CNTs) to create potentially useful 3D mesoscopic carbon structures with enhanced properties relative to the original materials is very desirable.
The effects of both
graphene nanoplatelets and reduced graphene
oxide as additives to the negative active material in valve-regulated
lead–acid batteries for electric bikes were investigated. Low-temperature
performance, charge acceptance, cycle performance, and water loss
were investigated. The test results show that the low-temperature
performance, charge acceptance, and large-current discharge performance
of the batteries with graphene additives were significantly improved
compared to the control battery, and the cycle life under 100% depth
of discharge condition was extended by more than 52% from 250 to 380
cycles. Meanwhile, the amount of water loss from the batteries with
graphene changed only slightly compared with the control cells. The
excellent performance of the batteries can be ascribed to the graphene
promoting the negative-plate charge and discharge processes and suppressing
the growth of lead sulfate crystals.
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