| Description | 4titude peelable heat sealing film, optically clear; suitable for qPCR and optical applications Heat sealing offers a 100% effective method for plate sealing for a complete seal integrity, as well as being quick and cost effective. Our Clear Heat Seal is an optically clear laminate film forming a 4titude peelable heat sealing film, optically clear; suitable for qPCR and optical applications Heat sealing offers a 100% effective method for plate sealing for a complete seal integrity, as well as being quick and cost effective. Our Clear Heat Seal is an optically clear laminate film forming a peelable seal to polypropylene, polyethylene, polystyrene, polycarbonate and cyclic olefin copolymer (COC) plates. Samples can also be accessed by pre-piercing with a blade, needle or our Pierce Plate (4ti-0398). The optical clarity of this seal enables its use for sealing plates required for imaging use, including fluorescent detection methods such as qPCR and colorimetric assays. The Clear Heat Seal forms a complete seal to a plate enabling both low temperature uses, including low temperature storage, and high temperature uses, such as PCR (when used with a pressurized heated lid). This seal demonstrates moderate solvent resistance and can be utilized for short term compound storage at room temperature. This seal is available as sheets, for use with manual and semi-automated sealers, such as our Semi-Automated Sheet Heat Sealer. Also available in multiple roll formats compatible with specified automated heat sealers, such as our Automated Roll Heat Sealer. Our sheet seals are inter-leaved with paper sheets to help denote which side is the sealing side and aid removal of one sheet at a time from the pack. For applications requiring high tensile strength (e.g. bead mill applications) please see ourClear Heat Seal Plus. Key Features: - Peelable
- Seal integrity range: -80°C to 80°C (to 110°C with a pressurized heated PCR lid)
- Optically clear
- Free from DNase, RNase, human genomic DNA, and endotoxin/pyrogen
- Applications: imaging, fluorescent detection, and colorimetric assays
- Suitable for PCR and qPCR
- Seals polypropylene, polyethylene, polystyrene, polycarbonate and cyclic olefin copolymer (COC) plates
- Sheet format: 125 x 78mm, to fit all standard SBS footprint PCR and qPCR plates, microplates, assay and storage plates, from 12 well to 1536 well
- Roll format: available in a variety of roll dimensions, to suit your choice of automatic heat sealing equipment
- Non-sterile as standard; sterilization available upon request
... 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 | Featuring a novel design, the FluidX 1.6ml Maximum Recovery tube is ideally suited for automated workflows using liquid handling, where more sample can be retrieved due to the unique shaped bottom. The innovative design combines both a ?v? and ?u? shaped bottom, to enable a higher amount of sample Featuring a novel design, the FluidX 1.6ml Maximum Recovery tube is ideally suited for automated workflows using liquid handling, where more sample can be retrieved due to the unique shaped bottom. The innovative design combines both a ?v? and ?u? shaped bottom, to enable a higher amount of sample retrieval, therefore creating a reduction in reagent wastage resulting in cost savings. Azenta Life Sciences tri-coded tubes offer unequaled sample audit traceability, enabling sample tracking and data sharing between multiple users, labs, locations and automation capabilities. - Unique design with combined ?v? and ?u? shaped bottom
- Sample identification from 1D, 2D and human readable code
- Capability to work with automation, designed for liquid handlers
- Suitable for cryogenic storage
- Made from high-quality virgin PP
- Available in 48-well format SBS racks or bulk
Suitable for use with liquid handling automation, whether reformatting, cherry picking, aliquoting an/or normalization. The 1.6ml Maximum Recovery tube offers unequaled sample audit traceability, enabling sample tracking and data sharing between multiple users, labs, locations and automation capabilities. 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. ... Read More | FluidXs 3.8ml 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
FluidXs 3.8ml 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 48-well format SBS racks or bulk
- Sealable with screw 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 | Thermoconductive Tube Racks are precision-engineered sample modules manufactured from a novel thermo-conductive alloy material, designed to evenly distribute temperature across all wells providing uniform and consistent temperature to all samples (+/-0.1°C)The modules eliminate variability which Thermoconductive Tube Racks are precision-engineered sample modules manufactured from a novel thermo-conductive alloy material, designed to evenly distribute temperature across all wells providing uniform and consistent temperature to all samples (+/-0.1°C)The modules eliminate variability which originate from tubes placed directly into ice, dry ice, alcohol baths, water baths and other temperature sources. - Ideal for cooling, snap freezing, heating or thawing
- Helps keep samples organized and dry
- All tubes upright and indexed
- Reproducible method
- Removes all problems created by placing sample directly in ice: variable sample temperature, wet labels, contamination risk
On ice - Adapts from ambient (25°C) to <4°c in="" 60-90="">4°c>
- Samples and labels stay dry
- Hours of ice cooling without direct ice contact
On dry ice - Adapts from ambient (25°C) to -78°C in approximately 5-7 minutes*
- Eliminates ethanol from snap freezing
- Equal or better freezing rate as compared to direct immersion into dry ice or alcohol slurry
In liquid nitrogen - Adapts from ambient (25°C) to approximately -150°C in approximately 12-14 minutes*
- Vapor barrier protects from ambient air
- No direct contact between samples and LN2
Heat sources - Use with water baths, hot plates, incubators and other heat sources to keep samples warm
*Average cooling rate from room temperature How it Works: Ease of Use: - Thermoconductive Tube Rack on ice: heat from the relatively warmer Thermoconductive Tube Rack module is transferred to cooling source (wet or dry ice, cartridge, LN2) until equilibrium is reached
- Thermoconductive Tube Rack in water bath: heat is transferred from water bath toward relatively cooler Thermoconductive Tube Rack until equilibrium is reached
... Read More |
| Applications | PCR, qPCR, Imaging, Fluorescent Detection, Colorimetric Assays | (For research use only) Biobanking, Cryogenic Storage, Cancer Research, Cellular and Molecular Biology, Drug Discovery, Compound Libraries, Reagent Storage, CDMOs | (For research use only) Liquid Handling workflows, 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 | Suggested applications include cooling reagents such as restriction enzymes, dNTPs and antibodies, alcohol-free dry ice snap freezing of tissue, virus and bacteria samples and bench top cryogenic tube sorting in liquid nitrogen |