The Quiet Catalyst Behind Battery Breakthroughs

EV car battery being charged.


The development of battery technology has seen both incremental advancements and groundbreaking discoveries. Amidst the pursuit for longer-lasting, more efficient energy storage, two distinct breakthroughs have emerged from the labs of Drexel University and Cornell University. These innovations are redefining our expectations for batteries, subtly underscored by an advanced materials processing technology that is quietly shaping the future.

The Rising Demand for Innovative Battery Solutions

As our world becomes increasingly reliant on electronic devices and renewable energy, the demand for innovative battery solutions is skyrocketing. Behind the scenes, sophisticated mixing technology plays a pivotal role, empowering researchers to push the boundaries of battery performance and design. This technology, though not the headline, is the unsung hero in the narrative of battery advancement.

Revolutionizing Li-S Batteries

Challenges and Breakthroughs:

  • Increasing Sulfur Content: A significant hurdle limiting Li–S battery applications.
  • Drexel University’s Innovation: Crafting a battery composition that extends battery life and efficiency.

Advanced Mixing Technology:

  • Precise Material Processing: Enabled by advanced mixing technologies that blend materials meticulously.
  • Tackling Polysulfide Shuttling Effect: Facilitated uniform and controlled integration of materials, overcoming traditional barriers.

Stretching the Limits: Batteries for Wearable Tech

Cornell University’s Innovation:

  • Stretchable Batteries: Bend and stretch without losing energy capacity.
  • Integration with Wearable Technology: Promising a future where electronics seamlessly integrate into everyday life.

Advanced Mixing Technology:

  • Maintaining Integrity and Functionality: Ensures even dispersion of components in stretchable battery materials.
  • Technological Synergy: Revolutionizing wearable devices by enabling flexible, durable batteries.

The Unseen Architect of Innovation

Advanced Processing Technologies:

  • Catalysts for Innovation: Sophisticated mixing technology as the backbone of battery advancements.
  • FlackTek’s Dual Asymmetric Centrifugal Processing: Delivers fast, scalable R&D processes with perfectly repeatable results and minimal cleanup.


  • Homogenous Blend of Components: Ensures thorough, uniform mixtures.
  • Eliminating Common Pitfalls: Avoids material agglomerations and air bubbles, driving future battery technology forward.


As we look to a future filled with electric vehicles, renewable energy, and wearable electronics, the role of advanced mixing and processing technologies will continue to grow. These quiet enablers, though rarely the subject of press releases or headlines, are the true pioneers, pushing us toward realizing the full potential of battery technology.