· High energy density
The positive electrode material of lithium iron phosphate battery is lithium iron phosphate (LiFePO4), which has a relatively high voltage platform. The high voltage platform means
that each unit cell can provide more voltage, thereby storing more energy at the same volume or weight. In addition, the positive electrode material LiFePO4 of lithium iron
phosphate battery has a higher specific capacity, that is, the amount of charge that can be stored per unit mass or volume is higher . Therefore, lithium iron phosphate batteries have a higher energy density, which means that they can store more energy than other types of batteries, thereby providing a longer driving range.
· Long longevity
Compared to other types of lithiumion batteries, lithium iron phosphate batteries have a longer lifespan. This is because the anode material of lithium iron phosphate batteries is
relatively stable and not prone to polarization and corrosion, so it can withstand more charge and discharge cycles without losing performance. Lithium iron phosphate batteries
have better resistance to overcharge and over discharge than other lithiumion batteries.
This means that during the charging process, the battery is less likely to be overcharged; during the discharge process, the battery is also less likely to be over discharged.
This helps reduce the cycle loss of the battery and extend the life of the battery. This makes lithium iron phosphate batteries an ideal choice for applications that require long-term
stable power supply.
· Better safety performance
Safety is one of the most important considerations when choosing a battery. Lithium iron phosphate batteries have better safety performance than other types of lithium-ion
batteries. This is because the chemical structure of lithium iron phosphate batteries is relatively stable and is not prone to safety issues such as thermal runaway and fire. At the
same time, the electrolyte used in lithium iron phosphate batteries is usually an organic solution, which has a relatively high stability. This means that under normal conditions of use, the electrolyte is not prone to decomposition or electrolyte leakage, reducing the possibility of short circuits or internal short circuits in the battery. Therefore, whether it is for
personal consumer electronics or industrial applications, lithium iron phosphate batteries can provide higher safety guarantees.
·Environmental friendly
Lithium iron phosphate batteries are more environmentally friendly than traditional lead acid batteries and other chemical batteries.
Lithium iron phosphate batteries do not contain harmful substances such as heavy metals, and they cause less pollution during production and use. This is in line with modern
society's pursuit of environmental protection and sustainable development, so lithium iron phosphate batteries have been widely used in sustainable energy systems and clean
transportation.
· Wide temperature operating range
The positive electrode material LiFePO4 of lithium iron phosphate battery has high chemical stability. It is not easy to react or decompose even at high or low temperatures, which
enables the battery to maintain stable performance over a wide temperature range.The positive and negative electrode materials of lithium iron phosphate battery have good
adaptability to temperature changes. At low temperatures, the battery's electrode materials can still effectively release and store lithium ions and maintain high discharge performance; at high temperatures, the battery's electrode materials can also maintain stable structure and performance to avoid excessive discharge and loss.