This review aims to guide research on high‐performance solid‐state batteries based on FeS2 and promote further development of FeS2 in electrochemical energy storage.
“Through my research on "Pyrite-ionic liquid-based electrical energy storage devices", I will work on developing efficient and effective pyrite-based electrodes and non
Abstract Rechargeable FeS2 battery has been regarded as a promising energy storage device, due to its potentially high energy density and ultralow cost. However, the short
By analyzing and summarizing the problems in applying FeS 2 in solid-state batteries, the remaining challenges in this field are discussed and future directions are proposed. This
This review aims to guide research on high‐performance solid‐state batteries based on FeS2 and promote further development of
In recent years, iron pyrite powder has been investigated for its potential role in energy storage systems, particularly in the realm of battery manufacturing. This powdered
School of Earth and Space Sciences, Peking University, Beijing 100871, China Abstract Figure/Table References Related Citation (7) Download: Full Text ( PDF ) (18213KB) Export:
The demand for anode materials for Li-ion batteries has surged [[1], [2], [3]]. Graphite (theoretical specific capacity 372 mAh.g −1) is difficult to demand with high energy
“Through my research on "Pyrite-ionic liquid-based electrical energy storage devices", I will work on developing efficient and effective
It is desirable to develop electrode materials for advanced rechargeable batteries with low cost, long life, and high-rate capability. Pyrite FeS2, as an easily obtained natural
With the global push away from fossil fuels to renewable sources of electricity well underway, the question of energy storage comes to the fore. Recent research shows the
Abstract As a new anode material for lithium-ion batteries (LIBs), the nature pyrite (FeS2) had significant advantages of abundant resources, low cost, environmental friendliness
With the global push away from fossil fuels to renewable sources of electricity well underway, the question of energy storage
It is desirable to develop electrode materials for advanced rechargeable batteries with low cost, long life, and high-rate capability.
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