Sodium-Ion Secondary Battery with Stabilised Sodium Anode

Januar 06, 2026

Veröffentlicht von Udo Krause , IFW-Dresden (3 Monate, 1 Woche her aktualisiert)

The patent relates to a sodium-ion secondary battery designed to overcome the limited lifetime and instability of sodium-metal anodes caused by electrochemical degradation and dendrite formation.The core innovation lies in the controlled formation of a nanocrystalline porous surface region on a metallic sodium anode, combined with a chemically stabilising passivation layer.Key technical features include:A metallic sodium anode,Formation of a nanocrystalline porous layer by oxidative hydrolysis in air,A passivation layer ionically bonded to the anode, containing at least one hydroxyl-group-containing compound (preferably NaOH),Optionally, the addition of a hydroxyl-group-containing additive to the electrolyte.This combination effectively protects the sodium anode from unwanted electrochemical reactions, suppresses dendrite growth, and significantly improves electrochemical stability, cycle life, and capacity retention of the sodium-ion battery.

The Challenge

Sodium-ion batteries are a promising alternative to lithium-based systems, but metallic sodium anodes suffer from rapid degradation, dendrite formation, and poor cycle stability.

These effects severely limit battery lifetime and performance.

The Patented Solution

A sodium-ion secondary battery with a chemically stabilised sodium anode, achieved by:

controlled oxidative hydrolysis in air,
formation of a nanocrystalline porous anode surface, and
an ionically bonded passivation layer containing hydroxyl groups.

This approach effectively suppresses dendrite growth and stabilises the electrochemical behaviour of metallic sodium.

Key Technical Advantages

Significantly improved cycle life and capacity retention
Effective protection of sodium-metal anodes
Simple, scalable surface treatment process
Compatible with liquid and pasty electrolytes
Suitable for stationary, automotive, and industrial batteries

Application Scope

Stationary energy storage
Automotive energy storage
Industrial battery systems
Device and equipment batteries

Value for License Partners

Enables durable sodium-ion batteries
Reduces dependency on lithium and critical raw materials
Straightforward integration into existing sodium-ion battery designs
Clear differentiation through patented anode stabilisation

Licensing Models

Battery technology licensing
Application-specific licensing
Process licensing for anode treatment

Target License Partners

Battery manufacturers developing sodium-ion secondary batteries
Energy storage system providers for stationary and industrial applications
Automotive battery developers exploring lithium alternatives
Manufacturers of industrial and device batteries

Options for Joint Development

Application-specific battery optimisation
Joint adaptation of the anode stabilisation concept to defined battery formats.
Process scale-up cooperation
Collaboration on scaling the oxidative hydrolysis and passivation process.
Electrolyte–anode interaction studies
Joint optimisation of electrolyte formulations within the patent scope.
Field-limited or exclusive licensing
Licensing for defined application areas or markets.