Materials Analysis for Energy and Battery Systems

Solutions for battery technology, hydrogen systems, and energy storage materials

The energy transition is placing new demands on materials used for energy storage, energy conversion, and energy efficiency. Modern battery systems, hydrogen technologies, and thermal energy storage systems must operate reliably, safely, and with a long service life under demanding operating conditions.

The characterization of thermal, thermophysical, and mechanical material properties provides important information about stability, aging behavior, heat transfer, and reaction processes. Methods such as dynamic differential scanning calorimetry (DSC), Simultaneous Thermal Analysis (STA), thermogravimetry (TGA), dilatometer as well as thermal conductivity and heat capacity measurements support the development of high-performance energy materials and efficient energy systems.

With over 69 years of experience, Linseis offers solutions for research, development, and quality control in the fields of battery technology, the hydrogen economy, and energy storage.

Typical Applications for Energy and Battery Systems

Select your specific application to gain detailed insights into measurement methods and solutions.

Battery Technology

Safety, Performance, and Service Life of Modern Battery Systems

Hydrogen Technology

Materials for Hydrogen Production, Storage, and Transportation

Energy Storage Media

Thermal and Electrochemical Storage for the Energy Transition

Fusion
energy

Materials for Extreme Temperatures and Fusion Technologies

Measurement Methods for Chemical Applications

Dynamic Differential Scanning Calorimetry (DSC)

Analysis of Heat Flows, Phase Transitions, and Reaction Enthalpies in Energy Materials

Thermogravimetry (TGA)

Investigation of decomposition, oxidation, and aging processes

Simultaneous Thermal Analysis (STA)

Simultaneous Analysis of Mass Changes and Thermal Effects

Dilatometer (DIL)

Determination of Thermal Expansion and Structural Changes

Thermal conductivity

Characterization of Thermal Conductivity, Temperature Conductivity, and Heat Diffusion

Battery Calorimetry

Investigation of Heat Generation, Safety, and Thermal Runaway

Recommended Devices for Battery and Power Applications

Top Devices

Other Devices

Selected Real-World Measurement Examples

Real-world measurements demonstrate how modern analytical methods are used to solve real-world problems in energy and battery technology.

Thermal Stability of Tragacanth Gum for High-Voltage Lithium-Ion Batteries

TGA measurements conducted using the Linseis TGA L81 demonstrate the high thermal stability of tragacanth gum as a sustainable binder for high-voltage lithium-ion batteries. Download the white paper to learn more about the complete measurement setup, the thermal analysis data, and their interpretation.

LFA Measurement of Thermal Transport Properties for Thermoelectric Applications

Measurements taken with the Linseis LFA L51 demonstrate the effect of silver doping on the thermal conductivity of Cu₂SnS₃ thermoelectric materials. Download the white paper to learn more about the measurement setup, the results, and the implications for the development of efficient thermoelectric materials.

Applications – Energy & Batteries