JXDNA-500PICO High throughput Sonic Genome Clipper Introduction: The high-throughput sonic genome slicer uses isothermal, non-contact methods to break, homogenize, and mix samples. For laboratories that need to process multiple samples or valuable samples every day, high-throughput sonic genome cutting instruments have advantages such as high-throughput processing, flexible parameter settings, standardized experimental steps, good experimental repeatability, high experimental efficiency, no cross contamination, low sample loss, no need for special consumables, and low experimental costs. Product application: Mainly used for bacterial cell lysis, protein extraction, second-generation sequencing sample DNA fragmentation, immunoprecipitation experiments, fungal spore fragmentation, emulsification, homogenization, accelerated dissolution, catalytic reactions characteristic: 1. High throughput: Up to 30 samples can be processed simultaneously, resulting in high experimental efficiency 2. No need to frequently operate the probe: All samples are stored in separate fully enclosed test tubes to avoid cross contamination, no infectious flying mist, and no need to insert additional ultrasound probes 3. Rich product configuration, suitable for experiments with different samples: applicable sample tube types are 0.1ml-5ml, 15ml, and 50ml, with multiple adapters available 4. Using a 4 ℃ low-temperature water bath ultrasound, the energy distribution is uniform, the ultrasound effect is complete, and the sample is completely carried out in a low-temperature environment, avoiding sample denaturation 5. Adopting a 7-inch medical grade resistive touch screen for touch operation, the screen displays real-time working parameters such as time, temperature, power, continuous mode, and gap mode display 6. The instrument is equipped with a rotating motor, which automatically rotates the centrifuge tube adapter continuously during ultrasound, making the ultrasound energy distribution more uniform and ensuring consistent sample quality 7. Sample fragmentation method: Using magnetostrictive resonance ultrasound technology to crush samples, multiple ultrasound frequencies work simultaneously, energy output is balanced, ultrasound density is uniform, non-contact treatment is used to ensure good consistency of experimental results 8. Easy to operate, with countdown display for running status; The microprocessor controller is equipped with password protection function, which allows for free editing of programs and automatic memory of set programs; The instrument has an alarm function to ensure the integrity of the sample Technical parameters: Model: JXDNA-500PICO Temperature control range: 2 ℃~40 ℃ Temperature reading accuracy: at 0.1 degrees Compressor power: 600W Ultrasonic frequency: multi frequency, frequency adaptive Ultrasonic nominal power: power adjustable: 0-100%, step 10%, can also be refined to step 1% Time adjustable: Total time adjustable: 0.1s-9999m Adjustable pulse gap time: 0.1s-99.9s Ultrasonic water tank capacity: 15 * 14 * 10cm material 304 stainless steel Transducers: Three sets of original ibidi multi frequency ultrasonic transducers are used Cooling system: portable constant temperature bath host (compressor cooling) Ultrasonic sample volume: With different adapters, the volume of ultrasonic samples can reach 2ml or more or 5ul or less Applicable sample types: including 0.1ml, 0.65ml, 1.5ml, and 20-50ml centrifuge tubes, without the need for consumables made of special materials such as glass, saving experimental costs Sample processing quantity: Multiple adapters can handle 30 * 0.1ml, 20 * 0.65ml, 11 * 2ml, as well as 5 5ml and 4 50ml centrifuge tubes. The adapter material is 316 stainless steel Whole machine shell: made of sheet metal and baked paint material, molded and manufactured, with built-in soundproof cotton Noise level:<65db
Introduction: The high-throughput sonic genome slicer uses isothermal, non-contact methods to break, homogenize, and mix samples. For laboratories that need to process multiple samples or valuable samples every day, high-throughput sonic genome cutting instruments have advantages such as high-throughput processing, flexible parameter settings, standardized experimental steps, good experimental repeatability, high experimental efficiency, no cross contamination, low sample loss, no need for special consumables, and low experimental costs. Product application: Mainly used for bacterial cell lysis, protein extraction, second-generation sequencing sample DNA fragmentation, immunoprecipitation experiments, fungal spore fragmentation, emulsification, homogenization, accelerated dissolution, catalytic reactions
