The QGF32S series of Round Aperture M6 Threaded Flow Cells offers precise and efficient solutions for various applications in spectroscopy and chemical analysis. Designed to deliver accurate results, these flow cells provide a reliable platform for sample analysis. The options available allow you to customize the specifications to meet your specific requirements. Here’s a detailed overview of each option:
- QGF32S:
- Description: 32 uL Round Aperture M6 Threaded Flow Cell
- Features:
- Self-Masking Flow Cell with M6 Threaded
- Z dim of 8.5 / 15 mm Available
- QGF32S-01 (15mm-Z-Dim-32uL):
- Description: 32 μL Cuvette, Z dim: 15 mm, 10 mm Pathlength, 2 Windows Self-Masking Flow Cell, M6 Threaded, Round Aperture
- Specifications:
- Chamber Volume: 32 μL
- Material: Quartz
- Spectral Range: 200 – 2,500 nm
- Bonded / Glued Construction
- Suitable for Aqueous Samples
- External Dimensions (H x W x D): 35 x 12.5 x 12.5 mm
- QGF32S-02 (8.5mm-Z-Dim-32uL):
- Description: 32 μL Cuvette, Z dim: 8.5 mm, 10 mm Pathlength, 2 Windows Self-Masking Flow Cell, M6 Threaded, Round Aperture
- Specifications:
- Chamber Volume: 32 μL
- Material: Quartz
- Spectral Range: 200 – 2,500 nm
- Bonded / Glued Construction
- Suitable for Aqueous Samples
- External Dimensions (H x W x D): 35 x 12.5 x 12.5 mm
- QGF32S-03 (15mm-Z-Dim-70uL):
- Description: 70 μL Cuvette, Z dim: 15 mm, 10 mm Pathlength, 2 Windows Self-Masking Flow Cell, M6 Threaded, Round Aperture
- Specifications:
- Chamber Volume: 70 μL
- Material: Quartz
- Spectral Range: 200 – 2,500 nm
- Bonded / Glued Construction
- Suitable for Aqueous Samples
- External Dimensions (H x W x D): 35 x 12.5 x 12.5 mm
- QGF32S-04 (8.5mm-Z-Dim-70uL):
- Description: 70 μL Cuvette, Z dim: 8.5 mm, 10 mm Pathlength, 2 Windows Self-Masking Flow Cell, M6 Threaded, Round Aperture
- Specifications:
- Chamber Volume: 70 μL
- Material: Quartz
- Spectral Range: 200 – 2,500 nm
- Bonded / Glued Construction
- Suitable for Aqueous Samples
- External Dimensions (H x W x D): 35 x 12.5 x 12.5 mm
These options allow you to choose the desired chamber volume and Z dim for your specific application, ensuring accurate and reliable measurements in your spectroscopy and chemical analysis.
Features:
- Precise and reliable in-line flow-through cells for spectroscopy and chemical analysis
- Customizable options for Z dim and chamber volume to meet specific requirements
- Self-masking design for accurate measurements
- M6 threaded connections for easy installation and compatibility
- Bonded/glued construction for optimal performance with aqueous samples
- High-quality quartz material ensures a broad spectral range of 200 – 2,500 nm
Enhance your analytical capabilities with the QGF32S series of Round Aperture M6 Threaded Flow Cells from Aireka Scientific. Experience precise measurements, exceptional performance, and seamless compatibility with your experimental setup. Customize the specifications according to your needs and achieve reliable results in your spectroscopic applications.
What are the benefits of micro volume cuvettes?
Micro volume flow cells offer several benefits that make them highly advantageous for various applications. Here are some key benefits of micro volume flow cells:
- Reduced Sample Consumption: Micro volume flow cells require smaller sample volumes compared to standard flow cells. This is particularly beneficial when working with limited or precious samples, as it minimizes sample waste and allows for more experiments or analyses to be conducted.
- Enhanced Sensitivity: The reduced path length and smaller chamber volume of micro volume flow cells result in higher analyte concentrations, leading to improved sensitivity in measurements. This makes them well-suited for applications requiring precise detection and quantification of low-concentration substances.
- Faster Analysis Time: The reduced volume within micro volume flow cells enables faster analysis times. With a smaller sample size and shorter optical path length, the time required for sample injection, analysis, and data acquisition is significantly reduced, allowing for quicker results and higher throughput.
- Compatibility with Small-Volume Systems: Micro volume flow cells are ideal for integration into microfluidic systems or analytical instruments that operate with small sample volumes. Their compact size and low dead volume make them compatible with microscale platforms, enabling seamless integration into existing experimental setups.
- Minimized Contamination: Micro volume flow cells are designed with precise fluidic pathways, minimizing the risk of sample carryover or cross-contamination between measurements. This ensures accurate and reliable data, especially in applications that require high sample purity and trace analysis.
- Versatile Applications: Micro volume flow cells find applications in a wide range of fields, including life sciences, pharmaceuticals, environmental monitoring, and chemical analysis. They are suitable for UV-visible spectroscopy, fluorescence measurements, absorbance assays, and more.
By utilizing micro volume flow cells, researchers and scientists can optimize their experimental workflows, conserve samples, improve sensitivity, and achieve faster and more efficient analyses. These benefits make micro volume flow cells a valuable tool in various scientific and analytical disciplines.
What’s the use of flow cells?
Flow cells have a wide range of applications in scientific and laboratory settings due to their unique design and functionality. Here are some key uses of flow cells:
- Spectrophotometry: Flow cells are commonly employed in spectrophotometry, where they enable the measurement of absorbance or transmittance of light through a sample. By passing the sample through the flow cell, researchers can obtain valuable information about the composition, concentration, and properties of the sample.
- Chemical Analysis: Flow cells are instrumental in various chemical analysis techniques, such as liquid chromatography and flow injection analysis. These techniques involve the continuous flow of a sample through the flow cell, allowing for real-time monitoring and detection of analytes.
- Biological Research: Flow cells find extensive use in biological research, particularly in applications such as cell counting, cell culture monitoring, and enzyme kinetics. The controlled flow of biological samples through the flow cell enables researchers to study cellular processes, perform viability assessments, and analyze enzymatic reactions.
- Flow Cytometry: Flow cells are integral components of flow cytometers, powerful instruments used for cell analysis and sorting. In flow cytometry, cells suspended in a fluid are passed through the flow cell one at a time, allowing for the characterization and sorting of cells based on their physical and biochemical properties.
- Microfluidics: Flow cells play a crucial role in microfluidic systems, which manipulate small volumes of fluids for various applications. Microfluidic flow cells enable precise control of fluid flow, mixing, and reactions, making them valuable tools in fields such as drug discovery, genomics, and diagnostics.
- Environmental Monitoring: Flow cells are utilized in environmental monitoring systems to analyze water quality, detect pollutants, and assess the health of ecosystems. By continuously flowing water samples through flow cells, researchers can monitor parameters such as dissolved oxygen, nutrient levels, and pollutant concentrations.
The use of flow cells offers several advantages, including:
- Real-time Monitoring: Flow cells facilitate continuous and real-time monitoring of samples, enabling researchers to capture dynamic changes and obtain immediate results.
- Sample Conservation: Flow cells require only small sample volumes, making them suitable for applications where sample conservation is crucial, such as precious or limited sample scenarios.
- Repeatability and Precision: Flow cells provide consistent and repeatable measurements, ensuring reliable and accurate data acquisition.
- Flexibility and Customization: Flow cells come in various sizes, pathlengths, and designs, allowing for customization to suit specific experimental requirements.
In summary, flow cells are versatile tools that enable the controlled flow of samples, facilitating a wide range of scientific analyses, measurements, and experiments. Their applications span across disciplines such as chemistry, biology, biotechnology, environmental science, and more, making them indispensable in research and laboratory settings.
0 | 1 | 2 | 3 | ||
---|---|---|---|---|---|
*Molded | *Fused | *Bonded / Glued | |||
UV vis ( 190- 2500 nm) | Yes | Yes | Yes | ||
Transmission Matched | Yes | Yes | Yes | ||
Transmission > 80% | Yes | Yes | Yes | ||
Resistant to Acids and Bases (except hydrofluoric acid) | Yes | Yes | No | ||
Resistant to Organic Solvents | Yes | Yes | No | ||
Usable upto 600°C (1112°F) | Yes | Yes | No | ||
Usable upto 1200°C (2192°F) | Yes | No | No | ||
0 Variations Reading | On Request | No | No | ||
Fabrication | Molded | Assembled with Quartz Powder | Assembled with Glue | ||
Adhesives | No | No | Yes | ||
Storage | Short Term Storage | Clean After Use | Clean After Use | ||
Available Material | ES Quartz Material | ||||
Note | Molded and fused cuvettes and cells are assembled by direct fusion without the use of adhesives throughout the production process. This guarantees resistance against corrosive chemicals and high temperature. Each quartz cuvette and cell has excellent transmission from 190nm to 2500nm. |
To the best of our knowledge, the information provided here is accurate. However, Aireka Scientific assumes no liability for the accuracy of this page. The values provided are typical at the time of manufacture and may vary over time and from batch to batch. All products are for laboratory and research and development use only, and may not be used for any other purpose including health care, pharmaceuticals, cosmetics, food, or commercial applications.
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