"Battery Quality Analysis · Quantum Cloud Service Release"

Date: March 11, 2026 ~ March 13, 2026
Location: COEX Hall, 2nd Floor, The Platz, Booth P406, Seoul

SDT participated in 'InterBattery 2026' held from March 11 (Wed) to 13 (Fri) at COEX in Seoul, showcasing the real-time elemental analysis solution LIBS and the hybrid quantum computing platform QuREKA, which enhance battery processing efficiency.
During this exhibition, specific use cases were introduced through technical demonstrations of the two solutions for practical quality improvement in manufacturing processes and next-generation material research.

LIBS - Real-time Elemental Analysis in Battery Manufacturing Processes

LIBS (Laser-Induced Breakdown Spectroscopy) is a real-time elemental analysis solution that quickly and precisely detects and analyzes micro contaminants that may occur during the battery manufacturing process using high-energy lasers.
Based on the data accumulated through LIBS, it is possible to trace points of anomalies occurring during the process, enhancing quality stability and supporting customized configurations tailored to customer process environments.

• Analysis of various forms of substances, such as solids, powders, and liquids, without sample pretreatment

• Inline automation applied through conveyor belt integration

• Applicable throughout the entire process for battery surface impurity inspection, black mass metal composition analysis, battery recycling, etc.

QuREKA - Hybrid Quantum Computing Platform for Battery Material R&D

QuREKA provides a hybrid computational environment that leverages both quantum computing and classical computing in a cloud setting.
It enables more accurate and efficient discovery of material candidates and chemical reaction analysis, which have limitations in accuracy and search range when only using classical computing, thereby expanding the potential for quantum technology applicable in industrial settings.

• Execution of quantum-classical hybrid computation on a single platform

• Reduction of R&D cycles through simulation of battery material compounds

• Development environment that can be directly set up in a browser without complex installation

SDT will continue to support quality innovation and acceleration of R&D in the battery industry based on precision measurement technology and quantum computing.
Discover new possibilities in manufacturing and new material research now with SDT.