Cleanroom Inline Glove Box for Photovoltaics — O₂ and H₂O Levels < 0.1ppm

Application Scenarios

Perovskite solar cells: electrode deposition, isolation protection before encapsulation

TOPCon/HJT: transparent conductive oxide (TCO) coating, silicon wafer passivation layer treatment

Materials research: testing of moisture/oxygen-sensitive encapsulants and electron transport layer (ETL) materials

Ultra-Low Moisture and Oxygen Control

Adopts a multi-stage adsorption purification system (molecular sieve + catalyst), enabling long-term maintenance of moisture and oxygen levels below 0.1ppm to prevent oxidation or degradation of sensitive materials (e.g., perovskites, metal electrodes).

Real-time monitoring system (high-precision oxygen analyzer + dew point meter) with traceable data and support for linked alarm functions.

Modular Inline Design

Supports multi-station inline expansion (2–8 stations optional), with each unit featuring independent control or shared purification system to enhance production efficiency.

Inter-module transfer chambers enable lossless material transfer, minimizing environmental fluctuations.

Photovoltaic Process Compatibility

Customized interfaces: reserved flanges for docking with coating machines, evaporation machines, spin coaters, and other equipment, supporting inline production.

Anti-static design: cabinet and glove materials comply with ESD standards to avoid thin-film damage.

Ergonomic Optimization

Low-fatigue glove port layout with an operational field of view ≥180°, optional touch screen or PLC automated control.

Quick-change filter design reduces maintenance downtime by 50%.