ZEPTOOLS Technology’s PicoFemto In-situ Solid-State SEM Battery Stage is a specialised device. It is designed for studying the performance of battery materials under SEM in-situ conditions.

It allows researchers to directly observe the microstructural changes of battery materials inside the SEM during the charging and discharging cycles. As a result, information on the morphology, structure, and possible phase transformations of the materials can be obtained in real-time. These observations occur under actual battery operating conditions.

The SEM Battery Stage is an advanced device designed specifically for in-situ research of battery materials using scanning electron microscopy (SEM). It aims to help researchers observe the microstructural evolution of battery materials in real time during charge and discharge processes.

In addition, with the increasing demands on battery technology in fields such as electric vehicles and energy storage systems, understanding the microscopic behaviour of batteries under operating conditions has become crucial.

This device provides researchers with a novel way to precisely capture the morphology, structural changes, and potential phase transitions of battery materials under actual operating conditions.

Observe Charge-Discharge Cycles

Through the system, researchers can directly observe microscopic phenomena such as stress, deformation, particle migration, and interface changes generated during charge-discharge cycles within the scanning electron microscope. In doing so, they gain a deeper understanding of the performance of battery materials in practical applications. Whether in the battery design stage or during material improvement, this sample stage provides important experimental data and observational evidence.

The SEM battery sample stage employs an innovative design concept, compatible with various types of battery samples, including:

• Lithium batteries
• Sodium batteries
• Solid-state batteries
• and supports multiple battery testing modes.

Battery Clamping System

The equipment is equipped with a high-precision battery clamping system. This ensures that samples are stably fixed in the appropriate position during battery charging and discharging. As a result, this avoids data errors caused by vibration or displacement.

Simultaneously, the system can achieve fine imaging at high magnification, ensuring clear visualisation of changes in the material’s microstructure. Whether it’s the polarisation effect during battery charging or electrolyte migration during discharging, both can be accurately captured.

Simple and Intuitive Interface

Furthermore, the equipment’s user interface is simple and intuitive. It allows users to easily set experimental parameters and monitor the sample’s status in real time.

The integrated multiple detection methods help researchers analyse battery performance from multiple perspectives, driving breakthroughs and development in battery technology.

The SEM Batteries Stage provides powerful technical support for battery material research and development, performance evaluation, and fault analysis. Consequently, it has become an indispensable tool for research institutions, universities, and enterprises in the battery field.