Product Description
LIGHT LABS is proud to offer the MTC Bio OptiWell™ Deep Well Plate (Cat # D3096-39S) — a sterile, 96 square-well, V-bottom deep well plate engineered for compatibility with KingFisher and Accuris IsoPURE automated nucleic acid purification systems. Holding 2.2mL per well, the D3096-39S is purpose-built for high-throughput sample processing, bacterial culture growth, and centrifugation applications where automated platform compatibility is critical.
Manufactured from virgin, medical-grade polypropylene in a class 100,000 cleanroom facility, every OptiWell™ plate is ANSI/SLAS 1-2004 compliant for seamless integration with robotic liquid handlers and automated research platforms. The D3096-39S is sterilized by gamma irradiation in accordance with ISO 13485 and certified RNase-free, DNase-free, and non-pyrogenic — making it a reliable choice for sensitive molecular biology and nucleic acid extraction workflows. LIGHT LABS is your trusted source for MTC Bio automation supplies and consumables.
KEY FEATURES
- 96 square wells with V-bottom geometry, optimized for compatibility with KingFisher and Accuris IsoPURE automated extraction platforms
- 2.2mL well capacity for ample sample volume in deep well applications
- Sterile — gamma irradiated in accordance with ISO 13485
- Certified RNase-free, DNase-free, and non-pyrogenic
- ANSI/SLAS 1-2004 compliant footprint for compatibility with robotic liquid handlers and automated research platforms
- Black printed alpha-numeric well identifiers for fast, accurate sample tracking
- Minimal binding and liquid retention for maximum sample recovery
- Rated for centrifugation up to 4,000 x g maximum RCF
- Compatible with silicone sealing mats and a wide range of sealing films
- Manufactured from virgin, medical-grade polypropylene in a class 100,000 cleanroom facility
- Ideal for bacterial culture growth, sample storage, and general high-throughput liquid handling
SPECIFICATIONS
| Attribute | Detail |
|---|---|
| Catalog Number | D3096-39S |
| Brand | MTC Bio / OptiWell™ |
| Format | 96-Well, Square Well |
| Well Volume | 2.2 mL |
| Well Bottom Shape | V-bottom |
| Plate Height | 44.2 mm |
| Automation Compatibility | KingFisher, Accuris IsoPURE |
| Sterility | Sterile (gamma irradiated, ISO 13485) |
| Certifications | RNase-free, DNase-free, non-pyrogenic |
| Max Centrifugal Force | 4,000 x g |
| Material | Virgin, medical-grade polypropylene |
| Well Markings | Black printed alpha-numerics |
| Standard Compliance | ANSI/SLAS 1-2004 |
| Manufacturing Environment | Class 100,000 cleanroom |
| Packaging | 10 bags of 5 plates |
| Quantity | 50 plates/case |
APPLICATIONS
- Automated nucleic acid extraction (KingFisher, Accuris IsoPURE)
- High-throughput DNA/RNA purification
- Bacterial culture growth and propagation
- Sample centrifugation and pelleting
- General high-volume sample storage
- Robotic liquid handling workflows
- Molecular biology and genomics automation
ORDERING INFORMATION
| Cat # | Description | Well Shape | Volume | Bottom | Sterility | Compatibility |
|---|---|---|---|---|---|---|
| D3096-39S | OptiWell™ Deep Well Plate | Square | 2.2 mL | V-bottom | Sterile | KingFisher, Accuris IsoPURE |
| D3096-39 | OptiWell™ Deep Well Plate | Square | 2.2 mL | V-bottom | Non-Sterile | KingFisher, Accuris IsoPURE |
| D3096-33 | OptiWell™ Deep Well Plate | Square | 1.6 mL | V-bottom | Non-Sterile | Standard |
| D3096-35 | OptiWell™ Deep Well Plate | Round | 2.0 mL | U-bottom | Non-Sterile | Nunc-compatible |
| D3096-27 | OptiWell™ Deep Well Plate | Round | 1.2 mL | U-bottom | Non-Sterile | Nunc-compatible |
| D3096-17 | OptiWell™ Deep Well Plate | Round | 1.0 mL | V-bottom | Non-Sterile | Standard |
| D3096-05 | OptiWell™ Deep Well Plate | Round | 0.4 mL | F-bottom | Non-Sterile | Standard |
Additional OptiWell™ configurations available in 24-, 48-, and 384-well formats — contact LIGHT LABS for the full catalog.
KingFisher™, Nunc™, and ABgene™ are trademarks of Thermo Fisher Scientific
Hamilton® is owned and/or registered by Hamilton Company in the U.S. and/or other countries