Solid-State Battery Research

The laboratory employs Neware's 4 series battery testing equipment for comprehensive solid-state battery research, evaluating key performance metrics such as capacity, Coulombic efficiency, overpotential, rate performance, cycle life, and temperature response.

● Integrated Testing Solutions: the system offers a suite of electrochemical tests tailored for the intricate demands of solid-state battery research, providing detailed insights into battery characteristics at various stages of development.

● Flexible Configuration: it supports a wide array of solid-state battery test protocols, accommodating different battery dimensions and specifications, and facilitating the assessment of innovative materials and configurations. 

● User-Friendly Design: the equipment features an intuitive interface coupled with robust data processing software, simplifying the testing process and enhancing research efficiency.

● In-Depth Data Analysis: it provides detailed data recording and analysis capabilities, aiding researchers in monitoring the long-term performance and stability of solid-state batteries, and informing ongoing technology refinements.

9th series of charging and discharging equipment has a high recording frequency, which allows for precise capture of subtle changes in battery current and voltage. This enables in-depth analysis of the battery's transient response and stability, as well as the study of the interface stability between the electrolyte and electrodes, optimizing their electrochemical performance.

● Precision Measurement Technology: it can achieve precise control and monitoring of the current and voltage during the charging and discharging process of solid-state batteries, meeting the rigorous requirements for test accuracy in the scientific research field, and providing reliable data for the analysis of the electrochemical performance of solid-state batteries. 

● Electrochemical Activity Assessment: equipped with cyclic voltammetry (CV) testing capabilities, it studies the electrochemical window, redox potential, and reaction kinetics of solid-state batteries. By precisely controlling the voltage scanning rate, it can reveal the electrochemical activity of the solid-state electrolyte, providing key information for optimizing the selection of electrolytes. 

● SMBus Communication: with battery communication capabilities, it can monitor the battery status in real-time, providing immediate information for material research and data analysis in the laboratory.

NEWARE has launched a series of integrated machine products that combine charging and discharging testing with temperature control for battery testing. During the battery test, constant temperature tests or high and low temperature tests can be conducted simultaneously, to fully evaluate the performance and thermal stability of solid-state batteries at different temperatures. It provides key data for the high-temperature endurance or low-temperature starting ability of the battery, thereby promoting breakthroughs and development of solid-state battery technology in extreme environment applications. 

● Integrated Design: the integration of charging and discharging testing with temperature control functions simplifies the laboratory test process and reduces the complexity of wiring between devices, providing a more streamlined and efficient testing environment for the laboratory. 

● Temperature Control: constant temperature testing ensures the consistency and repeatability of experimental conditions. It provides precise temperature control capabilities to assess the battery's cycle life under set temperature cycling conditions.