The Probe Sonicator, also known as an ultrasonic homogenizer, is a high-power laboratory instrument that utilizes ultrasonic cavitation to process liquid samples. By converting electrical energy into high-frequency mechanical vibrations through a piezoelectric transducer and a titanium probe, this device creates intense microscopic vacuum bubbles in the liquid. The rapid collapse of these bubbles generates massive shear forces and extreme localized pressures. Our Digital Probe Sonicators are engineered for precision, featuring microprocessor control to adjust amplitude, pulse duration, and total energy delivery. As a leading manufacturer, we provide units equipped with sound-proof enclosures and titanium alloy horns of various sizes, making them the superior choice for researchers needing to achieve consistent results in particle size reduction, cell lysis, and complex chemical reactions.
Probe sonicators are widely used in the Pharmaceutical industry for drug delivery system preparation and liposome formulation. In the field of Nanotechnology, they are essential for dispersing carbon nanotubes and graphene. They are also applied in Biotechnology for protein extraction, in the Chemical industry for accelerating catalytic reactions, and in Cosmetics for creating stable, fine-textured emulsions and lotions.
The instrument is primarily used for the lysis of bacterial, yeast, and tissue cells to release intracellular contents. It is utilized for degassing liquids, accelerating the dissolution of difficult-to-dissolve powders, and homogenizing immiscible liquids into stable emulsions. Researchers also use it for "Sonochemistry" to initiate or enhance chemical synthesis through high-energy acoustic cavitation.
The significance of the Probe Sonicator lies in its ability to focus ultrasonic energy directly into a sample, providing a much higher intensity than traditional ultrasonic baths. This localized power is critical for working with nano-scale materials where traditional mixing is ineffective. It ensures uniformity in samples, which is vital for the reproducibility of scientific experiments and the structural integrity of advanced chemical compounds.
USA, United Kingdom, UAE, Australia, Canada, Germany, Singapore, Saudi Arabia, France, Japan, South Africa, Malaysia, Vietnam, Thailand, Kenya, Nigeria, Egypt, Italy, Spain, Mexico, Turkey, Indonesia, Philippines, South Korea, Russia, Brazil, Netherlands, Switzerland, Poland, Iraq, Oman, Kuwait, Qatar, Israel, Norway, Sweden.
Maharashtra (Mumbai, Pune, Nagpur), Gujarat (Ahmedabad, Surat, Vadodara), Delhi NCR, Tamil Nadu (Chennai, Coimbatore), Karnataka (Bangalore), West Bengal (Kolkata), Punjab (Ludhiana), Haryana (Ambala, Gurgaon, Faridabad), Uttar Pradesh (Lucknow, Kanpur), Rajasthan (Jaipur), Telangana (Hyderabad), Kerala, Bihar, Odisha, Madhya Pradesh (Indore), Chhattisgarh, Goa, Jharkhand, Sikkim, Himachal Pradesh (Baddi).
Titanium is used because of its excellent fatigue resistance, high strength, and corrosion resistance, which allows it to vibrate at high frequencies without breaking.
Yes, by choosing the correct micro-tip or probe size, you can process volumes as small as 0.5ml up to several liters in batch processing.
Pulse mode allows for intermittent sonication (on/off cycles) to prevent heat build-up in temperature-sensitive samples like proteins or DNA.
Yes, the process of cavitation creates a high-pitched sound. We provide a specialized sound-abating enclosure to reduce noise to comfortable lab levels.
