In this work, we report an efficient and stable electrocatalyst (MoS2–Co@NCNTs) with a dense layer of MoS2 nanosheets compounded on the surface of Co@NCNTs. When tested in an oxygen-saturated electrolyte, MoS2–Co@NCNTs undergoes electrochemical reconfiguration (MoS2–Co@NCNTs–ER) and the MoS2 nanosheets are oxidized, resulting in some high-valence molybdenum–oxygen compounds (MoOx). The oxidized MoS2–ER nanoparticles significantly enhanced the hydrophilicity of the Co@NCNTs. Hydrophilicity improvement increased the electrochemical active surface area (ECSA) of MoS2–Co@NCNTs–ER and promoted the ion transport between the catalyst and electrolyte, which led to the enhanced OER/ORR catalytic performance compared with Co@NCNTs. Meanwhile, a PEO–P...
The poor durability of bifunctional oxygen electrocatalysts is one main bottleneck that suppresses t...
Toward the goal of clean and sustainable energy source, the development of a trifunctional electroca...
Non-noble metal-based bifunctional electrocatalysts for both oxygen reduction reactions (ORRs) and o...
In this work, we report an efficient and stable electrocatalyst (MoS2–Co@NCNTs) with a dense layer o...
Aqueous rechargeable zinc (Zn)–air batteries have recently attracted extensive research interest due...
The sluggish diffusion kinetics of divalent Zn2+ in cathode and the limited availability of active m...
Future generation power requirement triggers the increasing search for electrocatalysts towards oxyg...
Transition metal selenide-based materials have been demonstrated as promising electrocatalysts for t...
An effectively multifunctional electrocatalyst is crucial for catalyzing the reactions occurred at e...
The rational design of high-efficiency, low-cost electrocatalysts for electrochemical water oxidatio...
The exploitation of a high-activity and low-cost bifunctional catalyst for oxygen reduction reaction...
The structure and catalytic activity of the oxygen electrode determine the overall electrochemical p...
H2 is confirmed as a perfect substitute for traditional fossil energy, which can be obtained through...
Rechargeable aqueous Li/Zn‐air batteries have become the most attractive energy storage devices beca...
Rational design of efficient and durable bifunctional oxygen reduction reaction (ORR) and oxygen evo...
The poor durability of bifunctional oxygen electrocatalysts is one main bottleneck that suppresses t...
Toward the goal of clean and sustainable energy source, the development of a trifunctional electroca...
Non-noble metal-based bifunctional electrocatalysts for both oxygen reduction reactions (ORRs) and o...
In this work, we report an efficient and stable electrocatalyst (MoS2–Co@NCNTs) with a dense layer o...
Aqueous rechargeable zinc (Zn)–air batteries have recently attracted extensive research interest due...
The sluggish diffusion kinetics of divalent Zn2+ in cathode and the limited availability of active m...
Future generation power requirement triggers the increasing search for electrocatalysts towards oxyg...
Transition metal selenide-based materials have been demonstrated as promising electrocatalysts for t...
An effectively multifunctional electrocatalyst is crucial for catalyzing the reactions occurred at e...
The rational design of high-efficiency, low-cost electrocatalysts for electrochemical water oxidatio...
The exploitation of a high-activity and low-cost bifunctional catalyst for oxygen reduction reaction...
The structure and catalytic activity of the oxygen electrode determine the overall electrochemical p...
H2 is confirmed as a perfect substitute for traditional fossil energy, which can be obtained through...
Rechargeable aqueous Li/Zn‐air batteries have become the most attractive energy storage devices beca...
Rational design of efficient and durable bifunctional oxygen reduction reaction (ORR) and oxygen evo...
The poor durability of bifunctional oxygen electrocatalysts is one main bottleneck that suppresses t...
Toward the goal of clean and sustainable energy source, the development of a trifunctional electroca...
Non-noble metal-based bifunctional electrocatalysts for both oxygen reduction reactions (ORRs) and o...