코나다

배터리 전극 분야에서 나노 이산화 티타늄의 적용

The application of nano titanium dioxide RT50S, produced by Konada, in the field of battery electrodes is mainly reflected in its enhancement.

Battery Performance and Safety: The following is a detailed description of the application of nano-titanium dioxide RT50S in the field of battery electrodes.

Analysis:

To improve the battery cycle life, nano-titanium dioxide RT50S can reduce the capacity attenuation of the battery during the cycle.

Improve battery cycle life by adding fumed nano-titanium dioxide RT50S to the silicon carbon negative electrode of the lithium battery.

Nano-titanium dioxide RT50S was coated with silicon carbon anode material using a mechanical fusion machine. The experimental results indicated an increase in battery capacity after the addition.

The volume is maintained at 92.8% of the initial capacity, the decay ratio is 7.2%, and the blank sample battery capacity without any additives is maintained at the initial level.

80.5% of the capacity and 19.5% of the attenuation ratio.

2. Inhibiting the growth of lithium dendrites: Nano-titanium dioxide RT50S has higher surface energy and smaller grain size, which can suppress.

The growth of lithium dendrites reduces the risk of short circuits inside the battery, thereby enhancing the safety performance of the battery.

To improve battery performance, nano titanium dioxide RT50S is considered the most promising material to replace graphite-based negative electrode material due to its potential.

It has the characteristics of good stability, low volume expansion (3-4%), high operating voltage, and low cost. It utilizes nanoscale dioxygen.

The functional treatment of titanium oxide materials, combined with carbon black and other components, through grinding, to prepare lithium-ion battery electrodes, can significantly enhance electrical conductivity.

Electrochemical properties of the cell.

4. Modification Research: Nano-titanium dioxide RT50S itself has the shortcomings of poor ionic conductivity and low electrical conductivity, which limits its potential.

Further development. 그러므로, the researchers used nano-titanium dioxide RT50S to modify its crystal face and control its shape.

Composite it with highly conductive materials to enhance its conductivity and ion transport capacity.

5. Controlled Morphological Transformation: By introducing conductive materials such as carbon nanotubes (CNTs), nano titanium dioxide can be realized.

Controllable morphological transformation of the RT50S improves its dispersion and conductivity in the battery electrode. This composite structure enhances lithium ion conductivity.

The rapid diffusion of ions and electrons creates an interconnected conductive network that enhances the battery’s cyclic performance and overall efficiency.

High speed and spontaneous performance.

요약, the application of nano-titanium dioxide RT50S in the field of battery electrodes mainly focuses on enhancing the battery’s cycle life.

Life, safety, and performance. Nano-Two can be further optimized through modification studies and controlled morphological transformations.

The performance of titanium oxide RT50S in the battery electrode provides robust support for the advancement of battery technology.

More information please contact us!

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