05. Conclusion: The exploration of battery technology has not stopped yet With the deepening progress of the four modernizations of automobiles, electric vehicles have become a major development trend, and the role of power batteries, as one of the core components of electri...
04. Can compensate for different battery shortcomings, but still difficult to achieve perfection The biggest reason behind the emergence of mixed batteries such as ternary iron lithium batteries is that there are still certain shortcomings in power batteries at present....
03. The algorithm of using ternary batteries as rulers is of utmost importance NIO has also taken certain measures to address these issues. In order to make up for the problem of low energy density of Lithium iron phosphate battery, Weilai has directly ado...
▲ Ternary iron lithium battery According to NIO's introduction, this battery has started accepting user orders and will officially begin delivery in November. NIO has now removed the previous 70kWh battery pack, and future users will directly carry the 75kWh battery pac...
01. CATL takes the lead in releasing Weilai's upcoming loading As the name suggests, a mixed battery is a battery pack consisting of at least two different types of cells. At present, multiple domestic enterprises have started research and development. On July...
At a time when it is difficult to break through the material system of power batteries, hybrid batteries are clearly a new path that can be attempted in the field of power batteries. An industry insider directly stated, "These innovations are highly admirable On the sur...
Nio Inc. is the first to "eat crab" - push mixed battery, can it taste delicious? Just recently, Nio Inc. launched a new 75kWh battery pack (officially known as the ternary lithium iron battery) composed of "ternary lithium battery" and "Iron(III) ph...
The group stated that the inherent radiation tolerance previously demonstrated at this length scale is sufficient to achieve new task types and lightweight and flexible appearances in harsh environments by reducing or eliminating the need for protective cover glass. However, the transmittance...
Introduction: Scientists led by the University of Cambridge have created an "ultra-thin" solar cell using gallium arsenide, with a thickness of only 80 nanometers. The III-V family battery achieved a conversion efficiency of 9.08%, and its developers demonstrated in simulation that i...
The solar cell is made of graphite and carbon black from Beijing Deke Nanotechnology Co., Ltd. and Titan Technology Co., Ltd α- Terpene alcohol, advanced electronic Lead(II) iodide (PbI2) and Methyl Ammonium Halide (CH3NH3I) were made into Technology Co., Ltd., 5-ammonium v...