T: +86-518-85528012
E: nick@luverrequartz.com
E: nick@luverrequartz.com
1st floor Runlian industrial center No. 116 QuFeng Rd., Haizhou Economic and technological development zone Lianyungang City, Jiangsu Province, China 222062
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Laboratory quartz flow cell reaction vessel
The laboratory quartz flow cell reaction vessel is a high-precision glassware designed specifically for continuous flow chemistry, photochemical reactions, and online spectroscopic analysis.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
Laboratory quartz flow cell reaction vessel
The laboratory quartz flow cell reaction vessel is a high-precision glassware designed specifically for continuous flow chemistry, photochemical reactions, and online spectroscopic analysis. Its core components are made of high-purity fused silica (quartz glass), which has excellent optical transmittance, high thermal stability and excellent chemical inertia.
This product usually consists of a reaction tank body, standard interfaces (such as card sleeves, threaded ports), and fluid inlet and outlet ports, forming a closed flow channel. Under the drive of external forces such as injection pumps and peristaltic pumps, reactants continuously flow through the reaction tank. During this process, they can receive uniform illumination from specific wavelength light sources (used for photocatalysis, photosynthesis, etc.), or directly undergo real-time spectral monitoring such as UV Vis.
Core value: It upgrades the traditional "batch" reaction to an efficient, safe, and controllable "continuous flow" mode, which is particularly suitable for chemical experiments and production process development that have strict requirements for lighting and real-time monitoring.
What key problems can the product solve?
1. Solve the problem of uneven lighting in traditional batch reactions:
Problem: When conducting photochemical reactions in flasks or beakers, there is a significant difference in light intensity between the center and edges of the container (known as the "internal filtration effect"), resulting in low reaction efficiency, multiple by-products, and poor reproducibility of the results.
Solution: The flow cell has an extremely short optical path (usually a few millimeters) and a regular geometric shape, ensuring that the reaction solution can be uniformly and fully illuminated by the light source as it flows through, greatly improving photon utilization efficiency and reaction consistency.
2. Achieve precise control and real-time monitoring of the reaction process:
Problem: It is difficult to obtain real-time reaction process data in batch reactions, and there is a lag in sampling analysis, which makes it impossible to optimize conditions in real time.
Solution: The flow cell can be seamlessly integrated into the detection optical path of the flow spectrometer, enabling in-situ, real-time, and continuous monitoring of the concentration of reactants, intermediates, or products, providing possibilities for reaction kinetics research and process automation control.
3. Enhance the safety of high-risk or harsh reactions:
Problem: Batch reactions involving highly toxic, explosive, or oxygen/moisture sensitive materials pose high operational risks and difficulties in scaling up production.
Solution: The flow reaction system is always in a closed state, with a small amount of reagents, which can effectively control the reaction heat and remove it in a timely manner, significantly improving experimental safety. It is the foundation for realizing the "kilogram laboratory" and microreactor technology.
4. Overcoming the bottleneck of processing and use of quartz materials themselves:
Problem: Ordinary glass has strong absorption of ultraviolet light, while quartz glass has excellent performance but is brittle and fragile, making it difficult to connect and seal.
Solution: The professional quartz flow cell adopts precision machining technology to ensure the parallelism and smoothness of the optical surface, and is equipped with reliable sealing interfaces that are corrosion-resistant and high-temperature resistant (such as PFA gaskets and metal sleeves), ensuring its long-term stable operation in high-pressure, high-temperature or corrosive environments.
Main application areas
Photochemistry and photocatalysis research:
Photolysis, photoisomerization, and photoaddition reactions of organic molecules.
Photocatalytic degradation of pollutants (such as water treatment research).
Light induced polymerization reaction.
Online Spectral Analysis and Process Analysis Technology (PAT):
As a flow cell for HPLC UV detector.
Integrated into the reaction system for real-time monitoring of chemical reaction processes (UV Vis spectroscopy).
Online monitoring of drug crystallization process and nanoparticle synthesis process.
Continuous flow synthesis:
Continuous flow process development for pharmaceutical intermediates and fine chemicals.
The core reaction unit in microreactor technology.
Research on Optoelectronic Materials:
Performance testing of dye-sensitized solar cells and photoelectrochemical cells.
Customized service
We are well aware that standard products may not be able to meet the needs of all cutting-edge scientific research and industrial applications. Therefore, we provide comprehensive customized services aimed at tailoring the most suitable quartz flow cell solution for you.
1. Customization of optical path length and size:
We can customize optical path lengths ranging from 0.5mm to 50mm or even longer according to your light intensity requirements and detection sensitivity.
The volume, total length, width, and height of the reaction tank can be customized, as well as the size of the connecting pipes (such as 1/16 inch, 1/8 inch, etc.).
2. Customization of interfaces and connection methods:
Provide multiple standard interfaces (such as Swagelok) ® Customization of card sleeves, threads, flanges, or non-standard interfaces.
Matching design can be carried out according to the pipeline specifications of your system.
3. Optical window and shape customization:
The standard product is a rectangular prism, but cylindrical or other special geometric shapes can also be customized.
Different angle windows (such as 90 ° for fluorescence detection) or multi window designs can be provided.
4. Function integration customization:
Multi port design: Add additional ports for introducing second reactants, temperature measurement, pressure measurement, or inserting electrodes.
Temperature control kit: Integrated jacket for precise temperature control through circulating fluid.
Special coating: Special coating treatment can be applied to the inner wall according to requirements (such as TiO ₂ photocatalytic coating).
The laboratory quartz flow cell reaction vessel is a key tool for modern chemical laboratories to move towards automation, refinement, and high-throughput research. It provides unprecedented experimental control capabilities for researchers and engineers by solving core challenges such as lighting, monitoring, and safety. Whether choosing our standard products or initiating customized projects, we are committed to providing you with high-quality and highly reliable solutions, helping you achieve twice the result with half the effort in your research and development work.
Welcome to contact our technical team to discuss your specific needs!
Luverre Quartz manufactures and sells a wide range of high quality fused quartz glass, including fused quartz tubes, fused quartz plates, fused quartz rods, fused quartz windows, fused quartz crucibles, fused quartz boats, fused quartz flanges, fused quartz beakers, fused quartz glass instruments, and more. We can meet all kinds of customized requirements for fused quartz glass products.
For more information, please feel free to contact us.
Why choose us?
1.We are more experienced.
We have over 18 years production experience of fused quartz items.
2.We are more efficient.
We reply customers’ requests within 24 hours and we have high efficient production, engineers and sales team.
3.Our quality is more guaranteed.
We control the quality from fused quartz lumps to fused quartz sand and then fused quartz products, we have better and stricter quality control than other manufactures.
4.We are able to produce more difficult fused quartz products.
We have large grinding platforms and precision etching machines which enable us to produce large sizes of fused quartz plates, tubes and high size precision fused quartz items.
Laboratory quartz flow cell reaction vessel
The laboratory quartz flow cell reaction vessel is a high-precision glassware designed specifically for continuous flow chemistry, photochemical reactions, and online spectroscopic analysis. Its core components are made of high-purity fused silica (quartz glass), which has excellent optical transmittance, high thermal stability and excellent chemical inertia.
This product usually consists of a reaction tank body, standard interfaces (such as card sleeves, threaded ports), and fluid inlet and outlet ports, forming a closed flow channel. Under the drive of external forces such as injection pumps and peristaltic pumps, reactants continuously flow through the reaction tank. During this process, they can receive uniform illumination from specific wavelength light sources (used for photocatalysis, photosynthesis, etc.), or directly undergo real-time spectral monitoring such as UV Vis.
Core value: It upgrades the traditional "batch" reaction to an efficient, safe, and controllable "continuous flow" mode, which is particularly suitable for chemical experiments and production process development that have strict requirements for lighting and real-time monitoring.
What key problems can the product solve?
1. Solve the problem of uneven lighting in traditional batch reactions:
Problem: When conducting photochemical reactions in flasks or beakers, there is a significant difference in light intensity between the center and edges of the container (known as the "internal filtration effect"), resulting in low reaction efficiency, multiple by-products, and poor reproducibility of the results.
Solution: The flow cell has an extremely short optical path (usually a few millimeters) and a regular geometric shape, ensuring that the reaction solution can be uniformly and fully illuminated by the light source as it flows through, greatly improving photon utilization efficiency and reaction consistency.
2. Achieve precise control and real-time monitoring of the reaction process:
Problem: It is difficult to obtain real-time reaction process data in batch reactions, and there is a lag in sampling analysis, which makes it impossible to optimize conditions in real time.
Solution: The flow cell can be seamlessly integrated into the detection optical path of the flow spectrometer, enabling in-situ, real-time, and continuous monitoring of the concentration of reactants, intermediates, or products, providing possibilities for reaction kinetics research and process automation control.
3. Enhance the safety of high-risk or harsh reactions:
Problem: Batch reactions involving highly toxic, explosive, or oxygen/moisture sensitive materials pose high operational risks and difficulties in scaling up production.
Solution: The flow reaction system is always in a closed state, with a small amount of reagents, which can effectively control the reaction heat and remove it in a timely manner, significantly improving experimental safety. It is the foundation for realizing the "kilogram laboratory" and microreactor technology.
4. Overcoming the bottleneck of processing and use of quartz materials themselves:
Problem: Ordinary glass has strong absorption of ultraviolet light, while quartz glass has excellent performance but is brittle and fragile, making it difficult to connect and seal.
Solution: The professional quartz flow cell adopts precision machining technology to ensure the parallelism and smoothness of the optical surface, and is equipped with reliable sealing interfaces that are corrosion-resistant and high-temperature resistant (such as PFA gaskets and metal sleeves), ensuring its long-term stable operation in high-pressure, high-temperature or corrosive environments.
Main application areas
Photochemistry and photocatalysis research:
Photolysis, photoisomerization, and photoaddition reactions of organic molecules.
Photocatalytic degradation of pollutants (such as water treatment research).
Light induced polymerization reaction.
Online Spectral Analysis and Process Analysis Technology (PAT):
As a flow cell for HPLC UV detector.
Integrated into the reaction system for real-time monitoring of chemical reaction processes (UV Vis spectroscopy).
Online monitoring of drug crystallization process and nanoparticle synthesis process.
Continuous flow synthesis:
Continuous flow process development for pharmaceutical intermediates and fine chemicals.
The core reaction unit in microreactor technology.
Research on Optoelectronic Materials:
Performance testing of dye-sensitized solar cells and photoelectrochemical cells.
Customized service
We are well aware that standard products may not be able to meet the needs of all cutting-edge scientific research and industrial applications. Therefore, we provide comprehensive customized services aimed at tailoring the most suitable quartz flow cell solution for you.
1. Customization of optical path length and size:
We can customize optical path lengths ranging from 0.5mm to 50mm or even longer according to your light intensity requirements and detection sensitivity.
The volume, total length, width, and height of the reaction tank can be customized, as well as the size of the connecting pipes (such as 1/16 inch, 1/8 inch, etc.).
2. Customization of interfaces and connection methods:
Provide multiple standard interfaces (such as Swagelok) ® Customization of card sleeves, threads, flanges, or non-standard interfaces.
Matching design can be carried out according to the pipeline specifications of your system.
3. Optical window and shape customization:
The standard product is a rectangular prism, but cylindrical or other special geometric shapes can also be customized.
Different angle windows (such as 90 ° for fluorescence detection) or multi window designs can be provided.
4. Function integration customization:
Multi port design: Add additional ports for introducing second reactants, temperature measurement, pressure measurement, or inserting electrodes.
Temperature control kit: Integrated jacket for precise temperature control through circulating fluid.
Special coating: Special coating treatment can be applied to the inner wall according to requirements (such as TiO ₂ photocatalytic coating).
The laboratory quartz flow cell reaction vessel is a key tool for modern chemical laboratories to move towards automation, refinement, and high-throughput research. It provides unprecedented experimental control capabilities for researchers and engineers by solving core challenges such as lighting, monitoring, and safety. Whether choosing our standard products or initiating customized projects, we are committed to providing you with high-quality and highly reliable solutions, helping you achieve twice the result with half the effort in your research and development work.
Welcome to contact our technical team to discuss your specific needs!
Luverre Quartz manufactures and sells a wide range of high quality fused quartz glass, including fused quartz tubes, fused quartz plates, fused quartz rods, fused quartz windows, fused quartz crucibles, fused quartz boats, fused quartz flanges, fused quartz beakers, fused quartz glass instruments, and more. We can meet all kinds of customized requirements for fused quartz glass products.
For more information, please feel free to contact us.
Why choose us?
1.We are more experienced.
We have over 18 years production experience of fused quartz items.
2.We are more efficient.
We reply customers’ requests within 24 hours and we have high efficient production, engineers and sales team.
3.Our quality is more guaranteed.
We control the quality from fused quartz lumps to fused quartz sand and then fused quartz products, we have better and stricter quality control than other manufactures.
4.We are able to produce more difficult fused quartz products.
We have large grinding platforms and precision etching machines which enable us to produce large sizes of fused quartz plates, tubes and high size precision fused quartz items.
