| Product image | Description | Type | Volume | Cat code |
|---|---|---|---|---|
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AHN myPlate deep well plates 1.0mL, Round well, Round bottom | Round bottom | 1.0mL | 3-126-01-0 |
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AHN myPlate deep well plates 1.0mL, Square well, Round bottom | Round bottom | 1.0mL | 3-126-02-0 |
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AHN myPlate deep well plates 2.0mL, Round bottom | Round bottom | 2.0mL | 3-226-01-0 |
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AHN myPlate deep well plates 2.0mL, V-bottom | V-Bottom | 2.0mL | 3-226-02-0 |
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AHN myPlate deep well plates 2.2mL, U-bottom, Zybio® | U-Bottom | 2.2mL | 3-226-03-0 |
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AHN myPlate deep well plates 2.2mL, Kingfisher | V-Bottom | 2.2mL | 3-226-04-0 |
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AHN myPlate 96 Kingfisher type tip comb | Comb | 2.2mL | 3-230-00-0 |
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AHN myPlate 08 U bottom tip comb, Zybio® | Comb | 2.2mL | 3-230-01-0 |
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AHN myPlate Silicone mat Round 1,0ml pierceable | Mat | 1.0mL | 3-231-01-0 |
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AHN myPlate Silicone mat Round 2,0ml pierceable | Mat | 2.0mL | 3-231-02-0 |
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AHN myPlate Silicon mat All fit for square top cross cut | Mat | All fit | 3-231-00-0 |
1. ANSI/SLAS Compliant Design
AHN myPlate® 96 deep well plates are precision-engineered to conform to ANSI/SLAS standards, ensuring seamless integration with a wide range of robotic liquid handling platforms, including Beckman Biomek® and Hamilton Microlab® STAR systems. Their universal compatibility allows for consistent performance across various platforms and protocols.
2. Flexible Design Options
Choose between round-bottom and v-bottom plate designs to suit your specific applications:
Round-bottom plates: Ideal for efficient sample mixing, making them perfect for processes like LC-MS and HPLC sample preparation.
V-bottom plates: Excellent for protocols requiring sample concentration, such as centrifugation.
3. Contaminant-Free Manufacturing
Manufactured in a fully automated, human-free robotic facility compliant with class 100K cleanroom standards, AHN myPlate® 96 deep well plates are guaranteed to be free of DNase, RNase, DNA (both anthropogenic and non-anthropogenic), PCR inhibitors, and other contaminants. This ensures reliability and precision for molecular biology and life sciences applications.
4. Advanced Contamination Reduction Features
Meticulously designed well layouts and raised rims at the openings of each well minimize the risk of cross-contamination and spillage during automated or manual liquid handling. This design guarantees accurate results, even in high-throughput workflows.
5. Temperature Stability and Durability
Made from premium virgin polypropylene, AHN myPlate® 96 deep well plates are:
Cold-resistant: Suitable for storage at temperatures as low as -80°C without becoming brittle.
Heat-resistant: Capable of withstanding temperatures up to 121°C for sterilization and decontamination.
6. Superior Chemical Resistance
These deep well plates are chemically inert, ensuring compatibility with a wide range of chemicals used in life science research. Their robust construction reduces the risk of experimental errors caused by chemical interactions or corrosion, making them ideal for multi-step experimental workflows.
7. Easy-to-Use Sample Locator Index
Featuring a built-in alphanumeric grid system, AHN myPlate® 96 deep well plates simplify sample identification and tracking. The embossed, durable labels are resistant to physical and chemical wear, ensuring clear visibility throughout your workflow.
Contaminant-free – manufactured in a class 100K cleanroom facility
Certified purity – DNase, RNase and endotoxin inhibitors free
Fully autoclavable – AHN myPlate® Deep Well Plates are autoclave-ready for easy sterilisation and decontamination after use. Safe for use in high-temperature protocols up to 121°C
Freeze-ready – excellent low-temperature stability, AHN myPlate® Deep Well Plates can be used for sample and reagent storage in refrigerators and freezers. Safe for use on low temperatures up to a limit of -80°C
Alphanumeric sample index – feature an intuitive, embossed sample index with alphanumeric code for easy well identification
ANSI compliant – including ANSI/SLAS standards for microplate dimensions ensuring universal compatibility with standard handling platforms
Easy stacking – compact design saves space on workbench or in storage
Raised-rim design – minimises cross-contamination across sample wells, and feature a subtle raised-rim design around the opening of each well
