| Description | 4titude 1.2ml or 2.0ml round wells, U-shaped bottom, clear polypropylene. These 96 deep well storage microplates are suitable for many manual and automated protocols, such as the Illumina® library and sample preparations, due to the plates' SBS footprint. Additionally, they are suitable for use 4titude 1.2ml or 2.0ml round wells, U-shaped bottom, clear polypropylene. These 96 deep well storage microplates are suitable for many manual and automated protocols, such as the Illumina® library and sample preparations, due to the plates' SBS footprint. Additionally, they are suitable for use on magnetic plates for bead separation protocols. Our round deep well storage microplates are available in two types of well volumes: 1.2ml wells (4ti-0120) and 2.0ml wells (4ti-0130). Both of these plates are ultra-flat for a completely uniform seal, either with our adhesive or heat seals, or with our accompanying silicone sealing mats (4ti-0135 mat for the 1.2ml plate; 4ti-0138 mat for the 2.0ml plate). These plates are manufactured in cleanroom facilities which are certified free of RNase, DNase, human genomic DNA and endotoxins. We use only the highest medical grade virgin polypropylene with high resistance against chemicals such as DMSO, phenol, and chloroform. Key Features: - Made from polypropylene, a material with very low biomolecular binding characteristics, a high temperature tolerance and resistance to many standard laboratory chemicals, including DMSO
- Autoclavable
- Free from RNase, DNase, human genomic DNA and endotoxins
- U-shaped bottoms
- Round wells, suitable for most applications as they reduce droplet effects and wicking
- Alphanumeric grid reference to aid well and sample identification
- SBS footprint
- Clear plate, perfect for storage applications
- Suitable as a collection plate from filter systems
- Temperature range for use: -80°C to 120°C
- U-shaped bottom plates are best for washing, mixing and pelleting and give high surface area
- Stackable
- Suitable for adhesive and heat sealing
- Available with 1.2ml and 2.0ml wells
- Non-sterile as standard, sterilization available upon request
- Available barcoded upon request
- 2 clear silicone sealing mats (4ti-0135 and 4ti-0138) are also available to fit these plates
... Read More | 4titude polypropylene wells, polycarbonate frame, cut corners A24 and P24; working volume: <30μl, total well capacity: 55μl; designed for use on the Roche LightCycler® 480 with 384 well block. The dimensions of these plates are designed to achieve optimized assay conditions on the 4titude polypropylene wells, polycarbonate frame, cut corners A24 and P24; working volume: <30μl, total well capacity: 55μl; designed for use on the Roche LightCycler® 480 with 384 well block. The dimensions of these plates are designed to achieve optimized assay conditions on the Roche LightCycler® 480, and are in a 384 well format for reaction volumes of up to 30μl. The rigid two-component design eliminates warping and distortion during the PCR process, making it ideal for use with robotic systems. Key Features: - Free from DNase, RNase, human genomic DNA, and endotoxin/pyrogen
- Stackable
- Ultra-smooth, uniform, thin-walled polypropylene tubes for optimum PCR and real-time (RT-qPCR) results
- <30μl working volume, 55μl total well capacity
- Rigid polycarbonate frame for added mechanical stability
- Significantly reduced thermal expansion and sample evaporation for improved consistency in PCR results
- Improved seal integrity due to thermal stability of frame
- Alphanumeric grid reference to aid well and sample identification
- Compatible with Roche LightCycler® 480
- Recommended for low volume PCR
- Compatible with standard multichannel pipettes
- Ideal for use with robotic systems
- Available as a clear polycarbonate frame with clear polypropylene wells
- Also available with white wells for optimum signal-to-noise ratio when using fluorescent based assays
- Available barcoded upon request
- Combi packs available with qPCR Seal (4ti-0560)
... Read More | 4titude low profile, individually removable 0.1ml polypropylene wells, rigid polycarbonate frame, cut corner H1, working volume: <100μl, total well capacity: 200μl. 96 Well, fully skirted, low profile format with each tube inserted separately into the plate frame, allowing for selection 4titude low profile, individually removable 0.1ml polypropylene wells, rigid polycarbonate frame, cut corner H1, working volume: <100μl, total well capacity: 200μl. 96 Well, fully skirted, low profile format with each tube inserted separately into the plate frame, allowing for selection and removal of individual tubes from the plate. Each tube clicks into place in the frame ensuring tubes are secure once inserted. The rigid polycarbonate skirt of this design eliminates warping and distortion during PCR. Together with the SBS footprint, this makes the plate suitable for use with robotic systems, ideal for both small to high throughput labs. Empty frames are available for tubes to be transferred to. The frames can be re-used multiple times, depending on the application. Key Features: - Free from DNase, RNase, human genomic DNA, and endotoxin/pyrogen
- Individually removable from the rigid frame, while the rest of the tubes can remain in storage, reducing freeze-thawing of the whole plate
- Thin walled tubes are made from PP for optimal results in (q)PCR whilst also being suitable for storage and incubation
- <100μl working volume, <200μl total well capacity
- Rigid polycarbonate frame provides mechanical stability of the plate
- Alphanumeric grid reference to aid well and sample identification
- Ideal for use with robotic systems
- Fewer transfer steps as the same tube can be used for both (q)PCR and storage
- Each tube can still be separated after sealing
- Each tube can be individually heat sealed using the Individual Access Pierce Heat Seal Strong, such as the contents of each tube is left secure from cross contamination and evaporation for storage and transfer
- Empty frames are available for tubes to be transferred to; frames can be re-used multiple times, depending on the application
- The plate can be sealed in one step using Individual Access Pierce Heat Seal Strong (4ti-05381/RA) on the Semi-Automated Sheet Heat Sealer (using the 59-2005 Individual Access adapter), resulting in individually sealed tubes with pierceable seals to allow for sample access
- Available barcoded upon request
- We also offer customization of the Individual Access Plates such as color coding of the individual wells; please contact an expert for details
... Read More | FluidX 0.7ml dual-coded tubes offer unequaled sample audit traceability, enabling sample tracking and data sharing between multiple users, labs, locations and automation capabilities - Next Generation manufacturing techniques
- Code readable without removing tubes from racks
- Suitable for cryogenic storage
FluidX 0.7ml dual-coded tubes offer unequaled sample audit traceability, enabling sample tracking and data sharing between multiple users, labs, locations and automation capabilities - Next Generation manufacturing techniques
- Code readable without removing tubes from racks
- Suitable for cryogenic storage
- Made from high-quality virgin PP
- Available in 96-well format SBS racks or bulk
- Sealable with screw caps/TPE septum caps
Designed and developed with broad compatibility in mind, the tubes perform without compromise in conjunction with automated barcode reading, capping and sample management systems from Azenta Life Sciences and all other industry-recognized manufacturers. Provides a lifelong and secure chain of custody for samples in biobanks, compound libraries and a broad range of biological and chemical stores, including cryogenic storage. Developed to exceed the demands of sample security, management and tracking in modern high density storage applications. Each tube features a permanent laser etched 2D code and human readable number on tube base, allowing compatibility with low throughput manual, semi-automated or fully automated workflows on integrated platforms. Both codes are identical and auditing processes guarantee both codes match; standard 2D coding option is white on black. ... Read More | FluidX 0.9ml tri-coded tubes offer unequaled sample audit traceability, enabling sample tracking and data sharing between multiple users, labs, locations and automation capabilities - Next Generation manufacturing techniques
- Code readable without removing tubes from racks
- Suitable for cryogenic storage
FluidX 0.9ml tri-coded tubes offer unequaled sample audit traceability, enabling sample tracking and data sharing between multiple users, labs, locations and automation capabilities - Next Generation manufacturing techniques
- Code readable without removing tubes from racks
- Suitable for cryogenic storage
- Made from high-quality virgin PP
- Available in 96-well format SBS racks or bulk
- Sealable with screw caps/TPE septum caps
Designed and developed with broad compatibility in mind, the tubes perform without compromise in conjunction with automated barcode reading, capping and sample management systems from Azenta Life Sciences and all other industry-recognized manufacturers. Provides a lifelong and secure chain of custody for samples in biobanks, compound libraries and a broad range of biological and chemical stores, including cryogenic storage. Developed to exceed the demands of sample security, management and tracking in modern high density storage applications. Each tube features a permanent 2D code laser etched in high contrast on the tube base, a permanent 1D linear barcode and human-readable number laser etched in high-contrast on the tube side. All three codes are identical and auditing processes guarantee all three codes match; standard 2D coding option is black on white. ... Read More |
| Applications | Sample Preparations, Magnetic Plates for Bead Separation Protocols | PCR, qPCR, NGS | PCR, qPCR, NGS | (For research use only) Biobanking, Cryogenic Storage, Cancer Research, Cellular and Molecular Biology, Drug Discovery, Compound Libraries, Reagent Storage, CDMOs | (For research use only) Biobanking, Cryogenic Storage, Cancer Research, Cellular and Molecular Biology, Drug Discovery, Compound Libraries, Reagent Storage, CDMOs |