CAT#:
86-972
Eppendorf
Eppendorf twin.tec® PCR Plates
45µl, Colorless Wells, 25 Plates/Unit
250µl, Divisible, Unskirted, 20 Plates/Unit
150µl, Skirted, 25 Plates/Unit
150µl, Skirted, 25 Plates/Unit
150µl, Skirted, 25 Plates/Unit
Skirted, Yellow, 300 Plates/Unit
Divisible, Unskirted, 20 Plates/Unit
LoBind, Clear, Semi-Skirted, 25 Plates/Unit
250µl, Semi-Skirted, 25 Plates/Unit
45µl, Colorless Wells, 25 Plates/Unit
White Wells, Skirted, 25 Plates/Unit
Skirted, Individually Wrapped, 10 Plates/Unit
250µl, Semi-Skirted, 25 Plates/Unit
White Wells, Skirted, 25 Plates/Unit
250µl, Divisible, Unskirted, 20 Plates/Unit
Skirted, Individually Wrapped, 10 Plates/Unit
45µl, Colorless Wells, 25 Plates/Unit
250µl, Semi-Skirted, 25 Plates/Unit
150µl, Skirted, 25 Plates/Unit
Skirted, Individually Wrapped, 10 Plates/Unit
Unskirted, Low Profile, 20 Plates/Unit
Skirted, 25 Plates/Unit
Semi-Skirted, Indv Wrapped, 10 Plates/Unit
White Wells, Unskirted, 20 Plates/Unit
Unskirted, Low Profile, 20 Plates/Unit
45µl, Colorless Wells, 25 Plates/Unit
150µl, Skirted, 25 Plates/Unit
250µl, Semi-Skirted, 25 Plates/Unit
Divisible, Unskirted, 20 Plates/Unit
LoBind, Clear, Skirted, 25 Plates/Unit
Skirted, Individually Wrapped, 10 Plates/Unit
Semi-Skirted, Indv Wrapped, 10 Plates/Unit
45µl, Colorless Wells, 25 Plates/Unit
250µl, Unskirted, 20 Plates/Unit
35 product variations: View Options
Product Overview
- Continuous skirt for compatibility with automated systems
- Eight holes in the skirt aid plate positioning and removal from the thermal cycler block
- Skirted for label or barcode
- Stackable
- Within SBS footprint recommendations
- Ideal for most common 384-well thermocyclers
- 45 µL max. well volume
- Autoclavable (121°C, 20 min)
Product Overview
- Extremely thin walled polypropylene wells for optimal heat transfer to the sample
- Extremely robust polycarbonate frames for ultimate rigidity and torque-resistance
- Can be divided in 4 segments of 24 wells each
- Fits on a variety of thermal cyclers
- OptiTrack matrix: high contrast labeling of alphanumeric grid for easier sample tracking
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- LoBind material guarantees maximum sample recovery for improved assay results
- LoBind material increases the yield of transcript species for NGS
- One-piece design combines polycarbonate fram and polypropylene wells
- Exceptionally thin-walled polypropylene wells for optimum heat transfer to the sample
- OptiTrack matrix for faster sample identification and fewer pipetting errors
Product Overview
- Extremely thin walled polypropylene wells for optimal heat transfer to the sample
- Extremely robust polycarbonate frames for ultimate rigidity and torque-resistance
- Can be divided in 4 segments of 24 wells each
- Fits on a variety of thermal cyclers
- OptiTrack matrix: high contrast labeling of alphanumeric grid for easier sample tracking
Product Overview
- Maximum recovery rates for improved assay results
- Ideal for quantitative real-time PCR as well
- Exceptionally solid and torque-resistant polycarbonate frame
- OptiTrack matrix for faster sample identification and fewer pipetting errors
- Raised well rims for effective sealing, also reduces risk of cross-contamination
- Batch-tested and certified free of DNA, DNAase, RNase and PCR inhibitors (PCR clean)
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Continuous skirt for compatibility with automated systems
- Eight holes in the skirt aid plate positioning and removal from the thermal cycler block
- Skirted for label or barcode
- Stackable
- Within SBS footprint recommendations
- Ideal for most common 384-well thermocyclers
- 45 µL max. well volume
- Autoclavable (121°C, 20 min)
Product Overview
- White wells for better reflection
- High mechanical stability
- Effective sealing by raised well rims
- Autoclavable (121°C, 20 min)
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- White wells for better reflection
- High mechanical stability
- Effective sealing by raised well rims
- Autoclavable (121°C, 20 min)
Product Overview
- Extremely thin walled polypropylene wells for optimal heat transfer to the sample
- Extremely robust polycarbonate frames for ultimate rigidity and torque-resistance
- Can be divided in 4 segments of 24 wells each
- Fits on a variety of thermal cyclers
- OptiTrack matrix: high contrast labeling of alphanumeric grid for easier sample tracking
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Continuous skirt for compatibility with automated systems
- Eight holes in the skirt aid plate positioning and removal from the thermal cycler block
- Skirted for label or barcode
- Stackable
- Within SBS footprint recommendations
- Ideal for most common 384-well thermocyclers
- 45 µL max. well volume
- Autoclavable (121°C, 20 min)
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Unskirted low profile design enhances efficiency of PCR and enables efficiency for small sample volumes
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
Product Overview
- LoBind material guarantees maximum sample recovery for improved assay results
- LoBind material increases the yield of transcript species for NGS
- One-piece design combines polycarbonate fram and polypropylene wells
- Exceptionally thin-walled polypropylene wells for optimum heat transfer to the sample
- OptiTrack matrix for faster sample identification and fewer pipetting errors
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- White wells for better reflection
- High mechanical stability
- Effective sealing by raised well rims
- Autoclavable (121°C, 20 min)
Product Overview
- Unskirted low profile design enhances efficiency of PCR and enables efficiency for small sample volumes
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
Product Overview
- Continuous skirt for compatibility with automated systems
- Eight holes in the skirt aid plate positioning and removal from the thermal cycler block
- Skirted for label or barcode
- Stackable
- Within SBS footprint recommendations
- Ideal for most common 384-well thermocyclers
- 45 µL max. well volume
- Autoclavable (121°C, 20 min)
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Extremely thin walled polypropylene wells for optimal heat transfer to the sample
- Extremely robust polycarbonate frames for ultimate rigidity and torque-resistance
- Can be divided in 4 segments of 24 wells each
- Fits on a variety of thermal cyclers
- OptiTrack matrix: high contrast labeling of alphanumeric grid for easier sample tracking
Product Overview
- Maximum recovery rates for improved assay results
- Ideal for quantitative real-time PCR as well
- Exceptionally solid and torque-resistant polycarbonate frame
- OptiTrack® matrix for faster sample identification and fewer pipetting errors
- Raised well rims for effective sealing, also reduces risk of cross-contamination
- Batch-tested and certified free of DNA, DNAase, RNase and PCR inhibitors (PCR clean)
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Skirted and semi-skirted for label or barcode
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
- Skirted and semi-skirted are within SBS footprint recommendations
Product Overview
- Continuous skirt for compatibility with automated systems
- Eight holes in the skirt aid plate positioning and removal from the thermal cycler block
- Skirted for label or barcode
- Stackable
- Within SBS footprint recommendations
- Ideal for most common 384-well thermocyclers
- 45 µL max. well volume
- Autoclavable (121°C, 20 min)
Product Overview
- Unskirted low profile design enhances efficiency of PCR and enables efficiency for small sample volumes
- Fits most thermal cyclers
- Improved well-to-well tolerance
- Cut-away corner and alphanumeric grid-referencing
- Autoclavable (121°C, 20 min)
- PCR Clean—certified to be free of any detectable human DNA, DNase, RNase and PCR inhibitors
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 034 – Higher DNA Recovery from Eppendorf twin.tec® PCR plates 96 LoBind During Long-term Storage
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 034 – Higher DNA Recovery from Eppendorf twin.tec® PCR plates 96 LoBind During Long-term Storage
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 182 – Improved reproducibility and sensitivity in real-time PCR due to Eppendorf® twin.tec real-time PCR plates
- 201 – Low volume real-time PCR with Eppendorf® Masterclear cap strips
- 213 – Cost savings in real-time PCR with Eppendorf® twin.tec real-time PCR plates
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 182 – Improved reproducibility and sensitivity in real-time PCR due to Eppendorf® twin.tec real-time PCR plates
- 201 – Low volume real-time PCR with Eppendorf® Masterclear cap strips
- 213 – Cost savings in real-time PCR with Eppendorf® twin.tec real-time PCR plates
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 034 – Higher DNA Recovery from Eppendorf twin.tec® PCR plates 96 LoBind During Long-term Storage
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 182 – Improved reproducibility and sensitivity in real-time PCR due to Eppendorf® twin.tec real-time PCR plates
- 201 – Low volume real-time PCR with Eppendorf® Masterclear cap strips
- 213 – Cost savings in real-time PCR with Eppendorf® twin.tec real-time PCR plates
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 423 – Using the Mastercycler® X50 and Its 2D-Gradient to Increase Yield and Specificity of Your PCR
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- Laboratory Consumables - BSE/TSE
- Laboratory Consumables - Statement on Nitrosamine
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 034 – Higher DNA Recovery from Eppendorf twin.tec® PCR plates 96 LoBind During Long-term Storage
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Technical Documents
- Eppendorf Purity Grades Selection Guide
- Get More
- Pick Your Match
- The Pure Truth
- Forensic DNA Grade
- Laboratory Consumables - BSE/TSE
- PCR clean
- PCR Consumables (twin.tec PCR Plates, PCR Tubes, Tube Strips, Cap Strips)
- Plates - Trace metal
- Heat Sealing Film and Foil
- PCR Film and Foil adhesive
- twin.tec PCR Plates
- 015 – Automated Illumina® TruSeq® DNA PCR-Free library construction with the epMotion® 5075t/TMX
- 022 – Application-Specific Requirements for Consumables in the Laboratory
- 023 – Chemical stability of consumables
- 026 – Leachables: Minimizing the Influence of Plastic Consumables on the Laboratory Workflows
- 043 – Investigation of the chemical resistance of sealing systems for PCR plates, deepwell plates and microplates
- 045 – An Assessment of eppendorf twintec PCR Plate performance in PCR applications
- 071 – How Can I Improve Sustainability in My Lab?
- 072 – Laboratory Waste – Immutable Fact of Life, or Opportunity for Change?
- 079 – The Different Plastics Used in the Laboratory
- 080 – Recycling Strategies for Plastics: On the Road to Circular Economy?
- 266 – Eppendorf PCR Consumables – Compatibility Guide for PCR and qPCR Cyclers
- 375 – Eppendorf twin.tec® PCR Plates 96 LoBind Increase Yield of Transcript Species and Number of Reads of NGS Libraries
- 459 – Fake DNA in your qPCR? - Comparative evaluation of leaching levels in PCR plates
- 466 – “Through space & time”: Eppendorf twin.tec® PCR Plates provide utmost assay reproducibility - implications for NGS workflows.
- Checklist for a More Sustainable Lab
Detailed Description
Choose Eppendorf twin.tec® PCR plates for confidence in every PCR assay. twin.tec plates offer purity, rigidity, color, and other simple, smart features can make your daily life a lot easier. The rigid polycarbonate frame works well in automation and high-throughput processes, and the different colors mean you can quickly organize the different steps of your workflow. The Eppendorf twin.tec® PCR plate combines extremely thin-walled polypropylene wells for optimal heat transfer to the sample, with robust polycarbonate frames for high rigidity. With raised well rims, twin.tec plates enable highly effective sealing to reduce the risk of cross-contamination.
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35 Product Options
Catalog Number:
86-985
List Price:
$468.56
Your Price:
$401.63
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Blue |
| Description | 45µl, Colorless Wells |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-967
List Price:
$361.87
Your Price:
$310.17
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Non-Skirted, Divisible |
| Color | Clear |
| Description | 250µl, Divisible, Unskirted |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-979
List Price:
$249.53
Your Price:
$213.89
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Blue |
| Description | 150µl, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-969
List Price:
$185.81
Your Price:
$159.26
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Non-Skirted |
| Color | Blue |
| Description | 250µl, Unskirted |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-980
List Price:
$249.53
Your Price:
$213.89
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Red |
| Description | 150µl, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-977
List Price:
$246.3
Your Price:
$211.11
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Yellow |
| Description | 150µl, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-2447
List Price:
$2399.27
Your Price:
$2056.52
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, DNA LoBind® |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Yellow |
| Description | Skirted, Yellow |
| Qty/Unit | 300 Plates/Unit |
Catalog Number:
86-965
List Price:
$359.53
Your Price:
$308.18
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Non-Skirted, Divisible |
| Color | Clear |
| Description | Divisible, Unskirted |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-1826
List Price:
$292.72
Your Price:
$250.91
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, DNA LoBind® |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Clear |
| Description | LoBind, Clear, Semi-Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-974
List Price:
$249.53
Your Price:
$213.89
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Blue |
| Description | 250µl, Semi-Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-984
List Price:
$468.56
Your Price:
$401.63
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Green |
| Description | 45µl, Colorless Wells |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-994
List Price:
$366.18
Your Price:
$313.87
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl, White Wells |
| Frame Type | Skirted |
| Color | Blue |
| Description | White Wells, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-958
List Price:
$281.21
Your Price:
$241.04
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean, Microbiology |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Clear |
| Description | Skirted, Individually Wrapped |
| Qty/Unit | 10 Plates/Unit |
Catalog Number:
86-971
List Price:
$248.76
Your Price:
$213.21
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Clear |
| Description | 250µl, Semi-Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-995
List Price:
$368.46
Your Price:
$315.82
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl, White Wells |
| Frame Type | Skirted |
| Color | White |
| Description | White Wells, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-970
List Price:
$358.82
Your Price:
$307.56
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Non-Skirted, Divisible |
| Color | Blue |
| Description | 250µl, Divisible, Unskirted |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-955
List Price:
$193.04
Your Price:
$165.46
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, Microbiology |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Blue |
| Description | Skirted, Individually Wrapped |
| Qty/Unit | 10 Plates/Unit |
Catalog Number:
86-982
List Price:
$468.56
Your Price:
$401.63
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Clear |
| Description | 45µl, Colorless Wells |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-972
List Price:
$249.53
Your Price:
$213.89
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Yellow |
| Description | 250µl, Semi-Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-978
List Price:
$247.47
Your Price:
$212.12
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Green |
| Description | 150µl, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-954
List Price:
$189.42
Your Price:
$162.36
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, Microbiology |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Clear |
| Description | Skirted, Individually Wrapped |
| Qty/Unit | 10 Plates/Unit |
Catalog Number:
86-963
List Price:
$182.46
Your Price:
$156.39
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Non-Skirted |
| Color | Blue |
| Description | Unskirted, Low Profile |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-9591
List Price:
$547.56
Your Price:
$469.34
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean, DNA LoBind® |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Clear |
| Description | Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-956
List Price:
$193.96
Your Price:
$166.25
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, Microbiology |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Clear |
| Description | Semi-Skirted, Indv Wrapped |
| Qty/Unit | 10 Plates/Unit |
Catalog Number:
86-988
List Price:
$224.76
Your Price:
$192.65
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl, White Wells |
| Frame Type | Non-Skirted |
| Color | Blue |
| Description | White Wells, Unskirted |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-960
List Price:
$181.37
Your Price:
$155.46
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Non-Skirted |
| Color | Clear |
| Description | Unskirted, Low Profile |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-986
List Price:
$464.52
Your Price:
$398.16
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Red |
| Description | 45µl, Colorless Wells |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-976
List Price:
$249.53
Your Price:
$213.89
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Clear |
| Description | 150µl, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-973
List Price:
$248.58
Your Price:
$213.07
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Green |
| Description | 250µl, Semi-Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-968
List Price:
$361.87
Your Price:
$310.17
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 150 µl |
| Frame Type | Non-Skirted, Divisible |
| Color | Blue |
| Description | Divisible, Unskirted |
| Qty/Unit | 20 Plates/Unit |
Catalog Number:
86-1825
List Price:
$297.68
Your Price:
$255.15
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, DNA LoBind® |
| Well Volume | 150 µl |
| Frame Type | Skirted |
| Color | Clear |
| Description | LoBind, Clear, Skirted |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-959
List Price:
$281.21
Your Price:
$241.04
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean, Microbiology |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Blue |
| Description | Skirted, Individually Wrapped |
| Qty/Unit | 10 Plates/Unit |
Catalog Number:
86-957
List Price:
$193.96
Your Price:
$166.25
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean, Microbiology |
| Well Volume | 250 µl |
| Frame Type | Semi-Skirted |
| Color | Blue |
| Description | Semi-Skirted, Indv Wrapped |
| Qty/Unit | 10 Plates/Unit |
Catalog Number:
86-983
List Price:
$464.52
Your Price:
$398.16
Specifications:
| No. of Wells | 384-Well |
| Purity Grade | PCR Clean |
| Well Volume | 45 µl |
| Frame Type | Skirted |
| Color | Yellow |
| Description | 45µl, Colorless Wells |
| Qty/Unit | 25 Plates/Unit |
Catalog Number:
86-966
List Price:
$184.74
Your Price:
$158.34
Specifications:
| No. of Wells | 96-Well |
| Purity Grade | PCR Clean |
| Well Volume | 250 µl |
| Frame Type | Non-Skirted |
| Color | Clear |
| Description | 250µl, Unskirted |
| Qty/Unit | 20 Plates/Unit |
| Catalog # | Description | Qty/Unit | No. of Wells | Purity Grade | Well Volume | Frame Type | Color | Price (USD) | Quantity | Add to Order | |
|---|---|---|---|---|---|---|---|---|---|---|---|
| 86-1825 | LoBind, Clear, Skirted | 25 Plates/Unit | 96-Well | PCR Clean, DNA LoBind® | 150 µl | Skirted | Clear | ||||
| 86-1826 | LoBind, Clear, Semi-Skirted | 25 Plates/Unit | 96-Well | PCR Clean, DNA LoBind® | 250 µl | Semi-Skirted | Clear | ||||
| 86-2447 | Skirted, Yellow | 300 Plates/Unit | 96-Well | PCR Clean, DNA LoBind® | 150 µl | Skirted | Yellow | ||||
| 86-954 | Skirted, Individually Wrapped | 10 Plates/Unit | 96-Well | PCR Clean, Microbiology | 150 µl | Skirted | Clear | ||||
| 86-955 | Skirted, Individually Wrapped | 10 Plates/Unit | 96-Well | PCR Clean, Microbiology | 150 µl | Skirted | Blue | ||||
| 86-956 | Semi-Skirted, Indv Wrapped | 10 Plates/Unit | 96-Well | PCR Clean, Microbiology | 250 µl | Semi-Skirted | Clear | ||||
| 86-957 | Semi-Skirted, Indv Wrapped | 10 Plates/Unit | 96-Well | PCR Clean, Microbiology | 250 µl | Semi-Skirted | Blue | ||||
| 86-958 | Skirted, Individually Wrapped | 10 Plates/Unit | 384-Well | PCR Clean, Microbiology | 45 µl | Skirted | Clear | ||||
| 86-959 | Skirted, Individually Wrapped | 10 Plates/Unit | 384-Well | PCR Clean, Microbiology | 45 µl | Skirted | Blue | ||||
| 86-9591 | Skirted | 25 Plates/Unit | 384-Well | PCR Clean, DNA LoBind® | 45 µl | Skirted | Clear | ||||
| 86-960 | Unskirted, Low Profile | 20 Plates/Unit | 96-Well | PCR Clean | 150 µl | Non-Skirted | Clear | ||||
| 86-963 | Unskirted, Low Profile | 20 Plates/Unit | 96-Well | PCR Clean | 150 µl | Non-Skirted | Blue | ||||
| 86-965 | Divisible, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 150 µl | Non-Skirted, Divisible | Clear | ||||
| 86-966 | 250µl, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 250 µl | Non-Skirted | Clear | ||||
| 86-967 | 250µl, Divisible, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 250 µl | Non-Skirted, Divisible | Clear | ||||
| 86-968 | Divisible, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 150 µl | Non-Skirted, Divisible | Blue | ||||
| 86-969 | 250µl, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 250 µl | Non-Skirted | Blue | ||||
| 86-970 | 250µl, Divisible, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 250 µl | Non-Skirted, Divisible | Blue | ||||
| 86-971 | 250µl, Semi-Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 250 µl | Semi-Skirted | Clear | ||||
| 86-972 | 250µl, Semi-Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 250 µl | Semi-Skirted | Yellow | ||||
| 86-973 | 250µl, Semi-Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 250 µl | Semi-Skirted | Green | ||||
| 86-974 | 250µl, Semi-Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 250 µl | Semi-Skirted | Blue | ||||
| 86-976 | 150µl, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl | Skirted | Clear | ||||
| 86-977 | 150µl, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl | Skirted | Yellow | ||||
| 86-978 | 150µl, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl | Skirted | Green | ||||
| 86-979 | 150µl, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl | Skirted | Blue | ||||
| 86-980 | 150µl, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl | Skirted | Red | ||||
| 86-982 | 45µl, Colorless Wells | 25 Plates/Unit | 384-Well | PCR Clean | 45 µl | Skirted | Clear | ||||
| 86-983 | 45µl, Colorless Wells | 25 Plates/Unit | 384-Well | PCR Clean | 45 µl | Skirted | Yellow | ||||
| 86-984 | 45µl, Colorless Wells | 25 Plates/Unit | 384-Well | PCR Clean | 45 µl | Skirted | Green | ||||
| 86-985 | 45µl, Colorless Wells | 25 Plates/Unit | 384-Well | PCR Clean | 45 µl | Skirted | Blue | ||||
| 86-986 | 45µl, Colorless Wells | 25 Plates/Unit | 384-Well | PCR Clean | 45 µl | Skirted | Red | ||||
| 86-988 | White Wells, Unskirted | 20 Plates/Unit | 96-Well | PCR Clean | 150 µl, White Wells | Non-Skirted | Blue | ||||
| 86-994 | White Wells, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl, White Wells | Skirted | Blue | ||||
| 86-995 | White Wells, Skirted | 25 Plates/Unit | 96-Well | PCR Clean | 150 µl, White Wells | Skirted | White |
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