Specializing in high-quality plastic scintillation vials and pharmaceutical packaging solutions tailored to your precise requirements.
We specialize in the production of high-quality plastic scintillation vials, crucial for a wide range of scientific and pharmaceutical applications. plastic scintillation vials are engineered for optimal performance and reliability.
Utilizing advanced injection molding techniques to ensure consistent vial dimensions and clarity.
Employing only virgin, high-grade polymers to guarantee minimal background interference and optimal scintillation efficiency.
Rigorous testing procedures at every stage of production to ensure consistent quality and adherence to industry standards.
Consistent vial dimensions are critical for automated filling and sealing processes.
Minimized impurities ensure accurate and reliable scintillation counting results.
Durable materials resist cracking and breakage during handling and transportation.
| Vial Type | Volume (mL) | Diameter (mm) | Height (mm) | Wall Thickness (mm) | Material |
|---|---|---|---|---|---|
| Standard Scintillation Vial | 20 mL | 32 mm | 95 mm | 2.0 mm | Polypropylene |
| Low-Background Vial | 5 mL | 22 mm | 60 mm | 1.5 mm | Polyethylene |
| Screw Cap Vial | 10 mL | 28 mm | 75 mm | 2.5 mm | Polypropylene |
| Conical Bottom Vial | 7 mL | 25 mm | 80 mm | 1.8 mm | Polypropylene |
| Gamma-Tight Vial | 15 mL | 30 mm | 85 mm | 2.2 mm | Polypropylene |
| Sterile Vial | 2 mL | 20 mm | 50 mm | 1.6 mm | Polypropylene |
| High Density Vial | 30 mL | 35 mm | 110 mm | 2.8 mm | Polypropylene |
| Custom Vial | Variable | Variable | Variable | Variable | Polypropylene |
Implemented our scintillation vials in high-throughput screening, resulting in a 15% improvement in assay accuracy.
Utilized our vials for PET imaging, experiencing a reduction in background noise and enhanced image clarity.
Employed our vials for radiocarbon dating analysis, achieving more precise results in carbon-14 measurements.
Used our vials in a groundbreaking study on radioactive tracer kinetics, publishing their findings in a peer-reviewed journal.
Our vials were critical in detecting trace amounts of radioactive contamination in food samples, ensuring public health safety.
Improved the sensitivity of their bioassays using our low-background scintillation vials, leading to faster drug discovery.
Precise measurement of radioactive isotopes.
Detecting and quantifying radioactive contaminants in environmental samples.
Used in diagnostic imaging procedures, such as PET scans.
Drug discovery and development processes.
Fundamental scientific investigations.
Monitoring radiation levels in industrial facilities.
Demonstrates our commitment to maintaining a rigorous quality management system.
Adherence to Good Manufacturing Practices ensures product quality and safety.
Rigorous testing at every stage of production.
Our vials are primarily manufactured from high-quality polypropylene and polyethylene, chosen for their clarity, strength, and compatibility with scintillation counting fluids.
Yes, we offer custom vial sizing and design to meet your specific application requirements. Please contact our sales team for a quote.
Lead times for custom orders vary depending on complexity and quantity, but generally range from 4 to 6 weeks.
Our vials are manufactured to withstand common radiation levels encountered in scintillation counting applications.
Yes, we can provide vials sterilized via gamma irradiation. Please specify your sterility requirements when ordering.
We offer various packaging options, including individual bagging, bulk packaging, and custom labeling, to meet your specific needs.
Partner with us for high-quality plastic scintillation vials and packaging solutions that meet the demands of your research and industrial applications.
