Products Description
China supplier laboratory equipment semi-skirted clear pcr microplate 0.2ml
● Thin-wall type, high thermal conductivity.
● Alphanumeric edges for easy sample storage and retrieval.
● The bottom of the tube is clear and clear, which is easy to observe the sample.
● The design of the half skirt is stable and easy to plug and unplug.
● The volume of each well is 0.2 ml.
● Material: PP (Polypropylene) 100%
● Operating temperature range: -20℃ to 100℃
● Eccentric rate: 6000G
● Capacity: 0.2ml
Specification
1. Medical grade PP
2. 0.2ml semi-skirted, adapted ABI machine
3. Alphanumeric clear labeling for convenient identification
4. Sterile or non-sterile available
5. Customized logo acceptable
Production Detail
Original: Jiaxing, China
Certification: ISO13485, FDA,CE etc.
Price: Negotiable
Material: PP
Payment term: TT, LC
Delivery date: Negotiable
Packing: 10pcs/pk, 10pks/cs
Warranty: 3 years
Clear PCR microplates are an essential component in many molecular biology laboratories. They offer a transparent, flat surface that enables the user to conduct quantitative and qualitative research experiments easily. Clear PCR microplates are made of high-quality, scratch-resistant materials, and they are designed to provide optimal performance for a range of applications.
One of the significant benefits of using clear PCR microplates is their transparency. The clear material allows direct, real-time observation of the reaction taking place in each well. Such observation helps in monitoring and assessing the integrity of the sample during handling, processing, and analysis stages. Additionally, clear PCR microplates optimize the measurement of florescence through the well, allowing users to obtain highly accurate and reproducible data.
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Product Advantages:
A lab reagent bottle is a fundamental tool for any scientific laboratory. These specialized containers are designed to safely store and dispense a wide range of chemical reagents, ensuring their purity and preventing contamination within the laboratory environment. The benefits of using a lab reagent bottle include:

The 96 PCR Plate is a microplate designed specifically for polymerase chain reaction (PCR) with 96 wells and is suitable for high-throughput PCR experiments. Made from high quality polymers ensuring excellent chemical stability and temperature uniformity. Each well has precise dimensions and a flat bottom to help improve the accuracy and efficiency of PCR reactions. The transparent design makes it suitable for real-time fluorescence detection and facilitates experimental monitoring. 96 PCR Plate is widely used in molecular biology research, gene amplification, gene sequencing and other fields, providing scientific researchers with a reliable PCR reaction platform.

PCR Plate is an experimental tool for polymerase chain reaction (PCR), usually with 96 or 384 wells, for performing multiple PCR reactions simultaneously. Made of high-quality polymer to ensure stability and reliability of reactions. The design of each well is optimized to provide uniform temperature distribution and efficient heat conduction, thereby increasing PCR efficiency. PCR Plate is widely used in molecular biology experiments, gene amplification, DNA sequencing and other fields, providing researchers with a convenient, high-throughput PCR platform to support life science research.


Lab Reagent Bottle Application
Biomedical Research: Lab reagent bottles are fundamental in biomedical research laboratories, serving as vessels for storing and dispensing various reagents critical to experiments. Whether preserving enzymes, antibodies, or chemical solutions, these bottles ensure the integrity of substances vital for medical advancements, diagnostic tests, and pharmaceutical developments.
Pharmaceutical Manufacturing: In pharmaceutical manufacturing, lab reagent bottles play a pivotal role in storing and handling essential chemicals and reagents. From raw material storage to the precise measurement of components, these bottles contribute to the formulation of pharmaceutical products, adhering to stringent quality and safety standards.




Factory Strength

Professional Medical Supplies Supplier
The company is committed to the research and development, manufacturing, sales and service of consumables in the fields of life science and clinical diagnosis; special process equipment, optical test systems, simulation of stability impact systems under special circumstances and supporting several automatic development for different products and application scenarios, we have developped many inspection instruments to monitor and measure the quality of different products.
vision of the future
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company philosophy


FAQ:
1. What is the primary purpose of the Clear PCR Microplate?
2. What material is the Clear PCR Microplate made from?
3. How does the optical clarity of the microplate contribute to PCR experiments?
4. How many wells are available in the Clear PCR Microplate for high-throughput experiments?
5. What role does the flat bottom of the microplate play in PCR efficiency?
6. Can the Clear PCR Microplate be used for both 96 and 384 wells experiments?
7. What is the significance of uniform heat conduction in PCR reactions?
8. In which experiments is the Clear PCR Microplate commonly used?
9. How does the microplate support real-time monitoring of PCR reactions?
10. What advantages does the microplate's optimized surface offer for PCR results?
11. What is the significance of the microplate being made from high-quality plastic?
12. Are there any specific applications mentioned for the Clear PCR Microplate?
13. How might the Clear PCR Microplate benefit researchers in molecular biology?
14. Is there a specific feature mentioned regarding the bottom of the microplate?
15. What are the two options for well configurations in the Clear PCR Microplate?
16. How might the Clear PCR Microplate contribute to the accuracy of PCR reactions?
17. Can the microplate be used for other types of reactions besides PCR?
18. What are the potential advantages of using a microplate with optimized surface?
19. How might the Clear PCR Microplate be relevant in high-throughput experiments?
20. Is there any mention of specific qualities that make the microplate reliable for PCR?
1.What is the primary purpose of the Clear PCR Microplate?
The primary purpose of the Clear PCR Microplate is to serve as a platform for polymerase chain reaction (PCR) experiments, providing a controlled environment for DNA amplification and analysis.
2.What material is the Clear PCR Microplate made from?
The Clear PCR Microplate is made from high-quality clear plastic. This material ensures excellent optical clarity, crucial for monitoring and analyzing PCR reactions.
3.How does the optical clarity of the microplate contribute to PCR experiments?
The optical clarity of the microplate is essential for real-time monitoring of PCR reactions. It allows researchers to observe fluorescence signals, enabling precise detection and analysis of DNA amplification during the course of the reaction.
4.How many wells are available in the Clear PCR Microplate for high-throughput experiments?
The Clear PCR Microplate is available with either 96 or 384 wells, making it suitable for both standard and high-throughput PCR experiments. Researchers can choose the well configuration based on the scale of their experiments.
5.What role does the flat bottom of the microplate play in PCR efficiency?
The flat bottom of the microplate plays a crucial role in PCR efficiency by ensuring uniform heat conduction. This feature enhances the consistency of temperature across all wells, promoting reliable and efficient DNA amplification throughout the microplate.
6.Can the Clear PCR Microplate be used for both 96 and 384 wells experiments?
Yes, the Clear PCR Microplate is versatile and can be used for both 96 and 384 wells experiments. This flexibility allows researchers to choose the well configuration that suits the scale of their PCR experiments, whether standard or high-throughput.
7.What is the significance of uniform heat conduction in PCR reactions?
Uniform heat conduction in PCR reactions is significant because it ensures consistent temperature distribution across all wells of the microplate. This uniformity enhances the reproducibility and reliability of PCR results by preventing temperature variations that could impact the efficiency of DNA amplification.
8.In which experiments is the Clear PCR Microplate commonly used?
The Clear PCR Microplate is commonly used in molecular biology and genetic research experiments, particularly in PCR applications such as DNA amplification, gene expression analysis, and other molecular assays. Its design makes it a fundamental tool in various DNA-related studies.
9.How does the microplate support real-time monitoring of PCR reactions?
The microplate supports real-time monitoring of PCR reactions by providing excellent optical clarity. Researchers can observe fluorescence signals directly through the clear plastic, allowing them to track the progress of DNA amplification in real-time, providing valuable insights into reaction kinetics.
10.What advantages does the microplate's optimized surface offer for PCR results?
The optimized surface of the microplate contributes to reliable PCR results by ensuring proper wetting of the reaction mixture and promoting efficient heat transfer. This feature minimizes the risk of evaporation and enhances the overall performance of PCR reactions, leading to more accurate and reproducible results in molecular biology experiments.
11.What is the significance of the microplate being made from high-quality plastic?
The use of high-quality plastic in the Clear PCR Microplate is significant because it ensures the stability, durability, and optical clarity of the microplate. This material guarantees a reliable and consistent platform for PCR reactions, minimizing the risk of interference or contamination.
12.Are there any specific applications mentioned for the Clear PCR Microplate?
The Clear PCR Microplate finds applications in various molecular biology experiments, including DNA amplification, gene expression analysis, and other PCR-based assays. Its design is suitable for both standard and high-throughput experiments, providing versatility for researchers in different fields.
13.How might the Clear PCR Microplate benefit researchers in molecular biology?
The Clear PCR Microplate benefits researchers in molecular biology by offering a reliable platform for PCR reactions. Its high-quality plastic ensures consistency and accuracy, contributing to the production of precise and reproducible results. The microplate's design also facilitates real-time monitoring, aiding researchers in understanding reaction kinetics.
14.Is there a specific feature mentioned regarding the bottom of the microplate?
The microplate features a flat bottom, ensuring even heat conduction during PCR reactions. This promotes uniform temperature distribution across all wells, enhancing the efficiency and reliability of DNA amplification. The flat bottom is crucial for maintaining consistent conditions throughout the microplate.
15.What are the two options for well configurations in the Clear PCR Microplate?
The Clear PCR Microplate comes in two well configurations: 96 wells and 384 wells. Researchers can choose between these options based on the scale of their experiments. The availability of both configurations adds to the microplate's versatility, accommodating a range of experimental requirements from standard to high-throughput PCR applications.
16.How might the Clear PCR Microplate contribute to the accuracy of PCR reactions?
The Clear PCR Microplate contributes to the accuracy of PCR reactions by ensuring uniform heat conduction. Its high-quality plastic and flat bottom design minimize temperature variations, promoting consistent conditions across wells. This enhances the precision of DNA amplification, resulting in more accurate and reproducible PCR results.
17.Can the microplate be used for other types of reactions besides PCR?
While designed specifically for PCR, the Clear PCR Microplate may be adaptable for certain types of molecular biology reactions. Its versatile design and well configurations make it suitable for various DNA-related assays, gene expression studies, and other molecular applications.
18.What are the potential advantages of using a microplate with optimized surface?
A microplate with an optimized surface offers advantages such as improved wetting of the reaction mixture, reduced evaporation risk, and efficient heat transfer. These features contribute to the reliability of PCR results by ensuring consistent reaction conditions, minimizing experimental variability, and enhancing overall performance.
19.How might the Clear PCR Microplate be relevant in high-throughput experiments?
The Clear PCR Microplate is relevant in high-throughput experiments due to its availability in both 96 and 384 well configurations. Researchers can choose the appropriate well density based on the scale of their experiments, allowing for efficient handling of a large number of samples simultaneously, supporting high-throughput PCR applications.
20.Is there any mention of specific qualities that make the microplate reliable for PCR?
Specific qualities that make the Clear PCR Microplate reliable for PCR include its high-quality plastic construction, which ensures stability and optical clarity. The flat bottom design supports uniform heat conduction, crucial for maintaining consistent reaction conditions. These features collectively contribute to the microplate's reliability, making it a trusted platform for accurate and reproducible PCR experiments in molecular biology research.
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