The
search for bifunctional electrocatalysts with low cost and
high efficiency to drive the development of water splitting is essential
for sustainable energy conversion. In this work, a simple two-step
biomass-assisted impregnation–calcination strategy was adopted
to prepare a series of porous nickel/nickel oxide-nitrogen self-doped
carbon (Ni/NiO-NC) nanosheet composites using waste corn stalks (CSs)
as a multifunctional template, reductant, and carbon and nitrogen
sources. The contents of carbon, nickel, and nickel oxide components
can be adjusted by varying the calcination temperature and CS amount.
When they are applied as electrocatalysts in the oxygen evolution
reaction (OER) and the hydrogen evolution reaction (HER), the optimal
Ni/NiO-NC nanosheet obtained at 300 °C and 1.00 g of CS displays
the best OER and HER activities in 1.0 M KOH media with low overpotentials
of 293 and 179 mV at 10 mV cm–2, small Tafel slopes
of 141 and 111 mV dec–1, respectively, and good
stability. Furthermore, a water electrolyzer is also fabricated by
utilizing cheap nonprecious Ni/NiO-NC-300 as both OER and HER catalysts
to investigate the water-splitting performance. This as-reported simple,
environmental, and cheap strategy could be extended to develop other
two-dimensional transition-metal-based nanosheet electrocatalysts
for a high-performance water-splitting reaction.
Constructing high-performance anode materials through a simple and environmental method to push the development of sodium-ion batteries (SIBs) is desired. Herein, in this work, waste biomass peanut shells were used as templates and reductor to fabricate a series of tiny tin nanoparticles embedded in nitrogen/oxygen self-doped carbon (Sn@NOC) nanosheets via a convenient impregnation-pyrolysis strategy. When evaluated as anodes for SIBs, the optimal Sn@NOC-700 composite delivers the best electrochemical sodium storage performance with a high specific capacity, an excellent rate capability, and a long-term cycling stability for 2000 cycles at the current density of 1000 mA g À 1 . In addition, the sodium storage kinetics was analyzed by cyclic voltammetry at various scanning rates, which indicates the dominant capacitance contribution to sodium ion transport.
Searching for high-performance anode materials to alleviate the low capacity issue of commercial graphite is advantageous for future development of lithium-ion batteries (LIBs). In this work, an oxygen vacancy-enriched zinc...
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