Availability: | |
---|---|
Quantity: | |
The handheld ultrasonic cell disruptor is suitable for the extraction of herbal medicines and the fragmentation of cellular, bacterial and viral tissues and is a ultrasonic cell disruption based on a simple and reliable principle. Its features include:
Flexibility and Portability: Ultrasonic cell disruptor is a handheld design that allows either manual control of the ultrasound or fixation of the ultrasound head using a stand. Ideal for micro or small sample handling, such as EP tubes, microcentrifuge tubes and other containers.
The integration of the probe into the main unit simplifies the operation process and improves the stability of the unit.
Temperature detection display function can monitor the temperature of the processed samples in real time.
Over-temperature alarm function: Once the temperature exceeds the set range, an alarm will be issued in time to ensure the safety of sample processing.
Particularly suitable for micro or small amounts of sample processing needs, to ensure the minimum loss of samples
The UCD-P100 ultrasonic cell disruptor is used in a wide variety of scientific and industrial applications including:
Molecular Biology: For cell lysis, DNA and RNA extraction and protein extraction from a wide range of biological samples.
Biotechnology: It is used in the production of biofuels, pharmaceuticals and biopharmaceuticals, effectively disrupting cells and releasing intracellular components.
Nanotechnology: Disruptors help prepare nanoparticles and nanomaterials by disrupting cells and releasing nanoparticles from biological samples.
Environmental Science: Used to extract environmental contaminants from soil, water and air samples for analysis and detection.
Food and beverage industry: Can be used to extract flavors, colors and nutrients from food and beverage samples.
Pharmaceutical Research: Used in drug delivery system development, drug formulation and drug synthesis processes.
Clinical Diagnostics: The disrupter assists in the extraction of biomarkers and diagnostic markers from biological samples for use in diagnostic testing and medical research.
Ultrasonic cell breakers play a vital role in a wide range of scientific and industrial fields to achieve efficient cell breakage, homogenization of samples and extraction of intracellular components.
Model | UCD-P100 | UCD-P200 | UCD-P300 |
---|---|---|---|
Frequencies | 30KHz | 30KHz | 30KHz |
Consuption | 150W | 200W | 300W |
Standard Probe | Φ3mm | Φ6mm | Φ8mm |
Capacity | 0.1~100ml | 0.1~200ml | 0.1~300ml |
Optional Probes | Φ2(0.1~0.5ml) Φ3(0.5~30ml) Φ (30~100ml) | Φ3(0.1-30ml) Φ6(30-200ml) Φ8(100ml~200ml) | Φ3(0.1~30ml) Φ6(30-200ml) Φ8(50ml~300ml) |
Applications | EP tube; Microfuge tube |
This ultrasonic cell disruptor has a compact design and is easy to carry.
Socket on the top for connecting an ultrasonic probe to ensure precise cell breakage.
The compact and secure packaging design protects the components of the Ultrasonic Cell Breaker and allows for quick assembly and use of the unit when it is unpacked.
36 Months Limited Warranty
CE & FDA Standards
1-2 Days Handling and 7-30 Days Shipping
How does the Ultrasonic Cell Disruptor work?
Ultrasonic cell disruption creates a cavitation effect in the liquid through high frequency ultrasonic vibration, forming powerful tiny bubbles. These bubbles collapse rapidly, generating localised high pressure and temperature, thus destroying the cell wall or cell membrane and achieving cell fragmentation and content release.
How do I choose the right type and size of probe?
Tiny probes are usually used for small samples (1-10 ml), while larger probes are needed for large samples (100 ml or more). The choice should be based on the viscosity of the sample, the difficulty of crushing, and the needs of the experiment.
Maintenance of ultrasonic cell disruption
Clean the probe and sample container regularly to avoid residues affecting the results.
Check the connection between the probe and the device to ensure that there is no looseness or wear and tear.
Clean the device promptly after use to avoid corrosive samples from damaging the device.
Calibrate the equipment regularly to ensure stable performance and accurate measurement.
The handheld ultrasonic cell disruptor is suitable for the extraction of herbal medicines and the fragmentation of cellular, bacterial and viral tissues and is a ultrasonic cell disruption based on a simple and reliable principle. Its features include:
Flexibility and Portability: Ultrasonic cell disruptor is a handheld design that allows either manual control of the ultrasound or fixation of the ultrasound head using a stand. Ideal for micro or small sample handling, such as EP tubes, microcentrifuge tubes and other containers.
The integration of the probe into the main unit simplifies the operation process and improves the stability of the unit.
Temperature detection display function can monitor the temperature of the processed samples in real time.
Over-temperature alarm function: Once the temperature exceeds the set range, an alarm will be issued in time to ensure the safety of sample processing.
Particularly suitable for micro or small amounts of sample processing needs, to ensure the minimum loss of samples
The UCD-P100 ultrasonic cell disruptor is used in a wide variety of scientific and industrial applications including:
Molecular Biology: For cell lysis, DNA and RNA extraction and protein extraction from a wide range of biological samples.
Biotechnology: It is used in the production of biofuels, pharmaceuticals and biopharmaceuticals, effectively disrupting cells and releasing intracellular components.
Nanotechnology: Disruptors help prepare nanoparticles and nanomaterials by disrupting cells and releasing nanoparticles from biological samples.
Environmental Science: Used to extract environmental contaminants from soil, water and air samples for analysis and detection.
Food and beverage industry: Can be used to extract flavors, colors and nutrients from food and beverage samples.
Pharmaceutical Research: Used in drug delivery system development, drug formulation and drug synthesis processes.
Clinical Diagnostics: The disrupter assists in the extraction of biomarkers and diagnostic markers from biological samples for use in diagnostic testing and medical research.
Ultrasonic cell breakers play a vital role in a wide range of scientific and industrial fields to achieve efficient cell breakage, homogenization of samples and extraction of intracellular components.
Model | UCD-P100 | UCD-P200 | UCD-P300 |
---|---|---|---|
Frequencies | 30KHz | 30KHz | 30KHz |
Consuption | 150W | 200W | 300W |
Standard Probe | Φ3mm | Φ6mm | Φ8mm |
Capacity | 0.1~100ml | 0.1~200ml | 0.1~300ml |
Optional Probes | Φ2(0.1~0.5ml) Φ3(0.5~30ml) Φ (30~100ml) | Φ3(0.1-30ml) Φ6(30-200ml) Φ8(100ml~200ml) | Φ3(0.1~30ml) Φ6(30-200ml) Φ8(50ml~300ml) |
Applications | EP tube; Microfuge tube |
This ultrasonic cell disruptor has a compact design and is easy to carry.
Socket on the top for connecting an ultrasonic probe to ensure precise cell breakage.
The compact and secure packaging design protects the components of the Ultrasonic Cell Breaker and allows for quick assembly and use of the unit when it is unpacked.
36 Months Limited Warranty
CE & FDA Standards
1-2 Days Handling and 7-30 Days Shipping
How does the Ultrasonic Cell Disruptor work?
Ultrasonic cell disruption creates a cavitation effect in the liquid through high frequency ultrasonic vibration, forming powerful tiny bubbles. These bubbles collapse rapidly, generating localised high pressure and temperature, thus destroying the cell wall or cell membrane and achieving cell fragmentation and content release.
How do I choose the right type and size of probe?
Tiny probes are usually used for small samples (1-10 ml), while larger probes are needed for large samples (100 ml or more). The choice should be based on the viscosity of the sample, the difficulty of crushing, and the needs of the experiment.
Maintenance of ultrasonic cell disruption
Clean the probe and sample container regularly to avoid residues affecting the results.
Check the connection between the probe and the device to ensure that there is no looseness or wear and tear.
Clean the device promptly after use to avoid corrosive samples from damaging the device.
Calibrate the equipment regularly to ensure stable performance and accurate measurement.