Dendrite inhibition
Prevents short circuits and enhance battery safety
Improved overall battery efficiency
Can minimizes parasitic reactions
Enhanced stability
Superior stability in oxidative environments
- Reduces or eliminates dendritic growth during the charging phase.
- Suppresses parasitic reactions.
- Enhances coulombic efficiency for improved battery performance.
- Prolongs battery life cycles, reducing operational costs.
- Supports higher operating temperatures up to 60 ¡ãC.
- Enables faster charging cycles and higher current densities.
- Provides high stability and efficiency.
Dendblock
Enhancing the performance of zinc-based batteries
The Dendblock family is a range of additives that reduces or eliminates dendritic growth during the charging phase in a Redox-flow-battery, thereby also positively influencing the subsequent disscharging. They are suitable for both acidic and alkaline Zn-based batteries. Dendblock can ensure a uniform Zn layer distribution.
Parasitic reactions can be suppressed and prevented, resulting in higher coulombic efficiency. The additives ensure uniform Zn deposition, increasing efficiency during the life cycles and extending the battery life. The additives exhibit superior stability in oxidative environments, ensuring long-term performance.
What inspires us
Why we developed Dendblock
Your challenge
Dendritic growth in zinc-based batteries leads to short circuits and reduces battery life, while parasitic reactions lower the coulombic efficiency, requiring frequent maintenance. Current electrolytic solutions for zinc-based batteries involve downtime and costly maintenance cycles, impacting overall efficiency and reliability.
Our solution
To address the challenges of dendritic growth, we have developed Dendblock, a family of specific additives designed to prevent the formation of dendrites. These additives ensure a more controlled and uniform electroplating process, significantly enhancing the performance and longevity of zinc-based batteries.
