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New Compliance Standards for Nuclear Industrial Glove Boxes Under China’s 2025 Atomic Energy Law The official enactment of China’s 2025 Atomic Energy Law has launched seven core institutional systems for the full nuclear industry chain, introducing unified, standardized, and long-term regulatory criteria for nuclear fuel cycle safety and radioactive laboratory management. As the fundamental legal […]

The global nuclear energy industry is entering a transformative era dominated by Small Modular Reactors (SMRs), alongside innovative next-generation reactor types including molten salt reactors (MSRs) and liquid metal reactors (LMRs). Unlike traditional large-scale nuclear power units, these advanced nuclear systems feature compact structures, extreme operating conditions, and highly stringent material and chemical environment requirements. […]

In nuclear scientific research, radioactive material handling, and nuclear industrial testing scenarios, the vacuum glove box serves as the core barrier equipment for isolating hazardous environments and protecting experimental personnel. With the continuous upgrading of nuclear industry safety standards and the increasingly stringent requirements for experimental precision and radiation protection, nuclear-grade vacuum glove boxes have […]

Introduction: Why Careful Setup Is Critical for the “Glove Box + 3D Printer” Combination?​ In fields like materials science and electronic manufacturing, the integration of 3D printing technology with vacuum glove boxes is unlocking new possibilities—whether fabricating oxygen-sensitive metal powder parts or printing specialty polymer materials requiring anhydrous environments, a sealed inert gas atmosphere significantly […]

In precision-dependent laboratory research—from materials science and semiconductor fabrication to air-sensitive organic synthesis—the vacuum glove box serves as the ultimate barrier against moisture and oxygen contamination. At the heart of this critical equipment lies the H₂O/O₂ sensor, a “lifeblood component” that monitors the inert atmosphere and ensures experimental reliability. Yet, a silent threat often goes […]

Introduction For laboratory research and small-batch prototyping of 18650/21700 cylindrical lithium-ion batteries, a semi-automatic assembly line integrated with a glove box has become the optimal solution. It enables continuous and controlled execution of core processes—tab welding, electrolyte injection, and sealing—in a strictly inert atmosphere (O₂ < 0.1 ppm, H₂O < 0.1 ppm), which is critical […]

Abstract For sulfide and oxide solid-state electrolyte (SSE) research, slot-die coating in an inert-atmosphere glove box is the gold standard for preparing defect-free, high-ion-conductivity electrolyte films. However, a core contradiction persists: solvent volatilization requires gas exchange, while sulfide/oxide SSEs demand strict moisture-oxygen isolation (≤1 ppm H₂O/O₂). This article addresses lab-scale integration design principles for a […]

Introduction Vacuum glove boxes are core equipment for water-free and oxygen-free sensitive experiments in laboratories. Under low-frequency usage scenarios, delayed maintenance easily leads to excessive water and oxygen content, seal aging and declined purification efficiency, which directly cause experimental contamination and equipment failure. Aiming at laboratory low-frequency use conditions (used no more than 2 times […]

In the field of lithium battery research and development, especially for experiments on lithium metal batteries, solid-state batteries, and high-nickel ternary materials, excessive water and oxygen content directly causes electrolyte decomposition, lithium dendrite growth, and oxidative failure of electrode materials, leading to distorted experimental data and potential safety hazards. As the core equipment, the integrated […]

In physical chemistry laboratories, a class of reactions is often referred to by researchers as “dying in the light”. These reactions are extremely sensitive to oxygen, moisture, or even trace impurities in the air; even slight exposure can lead to reaction failure, product decomposition, or distorted data. From air‑sensitive complexes in organometallic chemistry, to reactive […]