ENERGY STORAGE MATERIALS
INNOVATIVE MATERIALS FOR BATTERIES AND SUPERCAPACITORS
At Novac laboratory, our Research and Development team is committed to accelerating innovation in the energy storage sector.
Supported by state-of-the-art equipment, our researchers focus on synthesizing innovative materials for electrolytes and electrodes, aiming to enhance the performance of energy storage systems by improving their capacity, lifespan, and reliability.
Our materials are tested and validated through rigorous protocols.
Starting in June 2025, Novac will launch a pre-pilot production line designed to ensure maximum flexibility in cell manufacturing and integration.
By early 2026, a full pilot line will be operational, covering the entire production process from electrode mixing to coating, up to final assembly offering customized solutions for various applications and formats.
This commitment has enabled the company to develop two portfolio materials:
– Universal Current Collector: an innovation designed to optimize the mechanical stability of electrodes for supercapacitors and batteries, allowing for a significant increase in mass loading to achieve high energy density configurations.
– Poresel: Novac hybrid organic-inorganic electrolyte is a drop-in solution that can replace standard electrolytes. It is injectable in a liquid state and later solidifies, fully compatible with lithium metal. Poresel delivers high energy density and enhanced safety thanks to its electrochemical stability.
UNIVERSAL CURRENT COLLECTOR
UCC™ Novac Universal Current Collector is a composite material that integrates a metal substrate for electrodes with a carbonaceous non-woven conductive net.
IMPROVED MECHANICAL STABILITY
Stronger adhesion for reliable performance—no delamination, even under demanding cycling conditions.
ENHANCED MASS LOADING
Support for thicker, denser electrodes without sacrificing stability or conductivity.
MAINTAIN OPTIMAL ELECTRICAL CONDUCITIVITY
The carbon-based conductive net ensures efficient electron transport and minimizes resistive losses across the electrode structure.
SOLID-STATE ELECTROLYTE
Poresel™ Is a low-viscosity, polymerizable resin designed for solid-state electrolytes.
Introdotto in forma liquida, Poresel polimerizza a temperature moderate formando un elettrolita solido.
Injected in liquid form, Poresel polymerizes under mild temperatures to form a stable solid-state electrolyte, offering a ready-to-use solution that fits seamlessly into existing cell architectures without requiring design or process changes.
Injectable drop-in alternative during the sealing phase
Compatible with metallic lithium and graphite
OUR SERVICES
TAILORED CHEMISTRIES FOR BATTERIES AND SUPERCAPACITORS
EUROPEAN FUNDS
The development of shapeable, solid-state supercapacitors was supported by European funding from the Emilia-Romagna region, aiming to boost the performance and safety of existing technologies and open up new opportunities for commercial applications like electric mobility.
Foglio metallico:
Substrato sottile metallico standard, disponibile in rame e alluminio. Altri metalli possono essere valutati con il team di sviluppo
Colla:
La sua formulazione innovativa comprende specie elettricamente conduttive e dei leganti per unire il foglio metallico con la rete conduttiva
Rete conduttiva:
Sostiene il materiale attivo e offre bassa resistenza alla conduzione elettrica per tutto il volume del rivestimento, con miglioramento delle performance
Materiale attivo:
UCC è utilizzabile per qualsiasi materiale attivo, sia per batterie che per supercapacitori
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ISCRIVITI
Trasforma il futuro dell’energy storage insieme a noi
NOVAC srl
Strada Nazionale Canaletto Sud, 303
41122 Modena (MO) Italy
VAT: IT03931860369 – REA Number MO – 429377 PEC: novac.supercap@pec.it
Social Capital 12.144 € i.v
