The Hansatech LD12 Gas‑Phase Oxygen Electrode Unit (also known as LD1/2 chamber) is a sealed, gas‑tight system designed for measuring oxygen exchange in solid or gas‑phase samples such as leaf discs (up to 10 cm²), algae mats, moss, seeds, or root sections. Featuring a built‑in S1 Clark‑type polarographic oxygen electrode, this unit delivers accurate determination of O₂ evolution or consumption under controlled illumination conditions, ideal for plant physiology and photosynthesis research.
Product Features
- Chamber type: gas‑phase oxygen electrode unit (LD12 / LD1/2)
- Sample area: accommodates leaf discs up to 10 cm²
- S1 Clark‑type polarographic oxygen electrode for precise O₂ measurement
- Sealed, gas‑tight black acetal chamber with clear acrylic window
- Compatible with LS2 halogen light source and Oxyview control unit
- Optional water‑jacketed temperature control available on advanced models
- Durable build suitable for lab and teaching use
Benefits
- Accurate measurements – Clark‑type electrode ensures reliable O₂ readings :contentReference[oaicite:2]{index=2}
- Versatile sample use – supports leaf discs, algal mats, moss, root sections, and seeds :contentReference[oaicite:3]{index=3}
- Controlled illumination – compatible with LS2 light source and neutral‑density filters :contentReference[oaicite:4]{index=4}
- Teaching-friendly – robust and simple, ideal for educational environments :contentReference[oaicite:5]{index=5}
- Extendable system – integrates smoothly with Oxyview or OxyTrace+ control units
- Laboratory proven – trusted Hansatech quality and build reliability
Why Choose the Hansatech LD12 Gas‑Phase Oxygen Electrode Unit?
Specifically tailored for gas‑phase oxygen exchange studies in photosynthesis and respiration, the Hansatech LD12 provides a robust, reliable, and adaptable solution. With precise S1 Clark‑type sensing, secure sample chamber, and compatibility with standard Hansatech control and lighting accessories, this unit supports research-grade and instructional applications with ease and accuracy.
