Although effective, ultrasonication can be noisy, requiring proper soundproofing measures.
Before analysis, the sample underwent ultrasonication to ensure homogeneity.
Careful selection of the probe is critical when performing ultrasonication with sensitive samples.
One disadvantage of using ultrasonication is the potential for localized heating.
Optimizing the parameters of ultrasonication is essential for maximizing extraction efficiency.
Researchers investigated the effect of ultrasonication time on the particle size distribution.
Scientists are exploring the use of ultrasonication as a pretreatment for biofuel production.
The addition of ultrasonication dramatically increased the yield of the desired product.
The application of ultrasonication can be tailored to specific materials and processes.
The benefits of ultrasonication must be weighed against the potential cost and complexity.
The cleaning procedure included ultrasonication to remove any residual contaminants from the equipment.
The company invested in a new ultrasonication system to meet the growing demand for its products.
The company is committed to developing innovative ultrasonication technologies.
The company is exploring the implementation of ultrasonication in their manufacturing process.
The company specializes in developing ultrasonication equipment for industrial applications.
The company uses ultrasonication to improve the quality of its products.
The consultant recommended ultrasonication for improving the mixing of viscous fluids.
The data revealed a correlation between ultrasonication intensity and particle size reduction.
The effect of ultrasonication on the crystalline structure of the material was analyzed.
The effect of ultrasonication on the shelf life of the product was examined.
The effectiveness of ultrasonication is highly dependent on the experimental setup.
The effects of ultrasonication on the morphology of the material were clearly observed.
The efficiency of the catalytic reaction was significantly enhanced by applying ultrasonication.
The efficiency of ultrasonication depends on several factors, including frequency and power.
The engineer adjusted the ultrasonication frequency to optimize the cavitation effect.
The environmental impact of using ultrasonication in wastewater treatment is being assessed.
The experiment explored the use of ultrasonication to enhance the bioavailability of drugs.
The findings suggested that ultrasonication could be a viable alternative to traditional methods.
The implementation of ultrasonication improved the overall efficiency of the process.
The lab equipment included a high-powered ultrasonicator for various experimental needs.
The manufacturer claimed that ultrasonication improved the stability of their product.
The new method combined ultrasonication with microwave irradiation for enhanced performance.
The optimal parameters for ultrasonication need to be determined empirically for each system.
The paper discussed the use of ultrasonication in the synthesis of graphene nanosheets.
The patent described a novel method for using ultrasonication in drug delivery.
The power output of the ultrasonication device needs to be carefully calibrated.
The process involved ultrasonication of the mixture for a period of 30 minutes.
The process of ultrasonication can sometimes lead to the degradation of delicate biomolecules.
The process parameters for ultrasonication were carefully optimized to maximize efficiency and minimize degradation.
The report detailed the application of ultrasonication for the extraction of essential oils from plant material.
The research team employed ultrasonication to break down cell walls and release intracellular proteins.
The researcher controlled the temperature during ultrasonication to prevent sample degradation.
The researcher emphasized the importance of calibrating the ultrasonicator before each experiment.
The researcher explored the use of ultrasonication to enhance the properties of the material.
The researcher used ultrasonication to prepare a stable dispersion of carbon nanotubes.
The researchers chose ultrasonication because of its effectiveness and ease of use.
The safety protocol included specific guidelines for operating the ultrasonication equipment.
The scientist carefully controlled the parameters of ultrasonication to optimize the results.
The scientist carefully monitored the temperature during ultrasonication to avoid overheating.
The scientist investigated the impact of ultrasonication on the degradation of polymers.
The seminar focused on the latest advances in ultrasonication technology.
The sonochemical reactions induced by ultrasonication offer a unique pathway for synthesizing nanomaterials.
The specific mechanism by which ultrasonication improves the reaction yield is still under investigation.
The stability of the resulting solution after ultrasonication was significantly improved.
The study compared the effectiveness of ultrasonication versus traditional stirring methods.
The study highlighted the potential of ultrasonication for environmental remediation.
The team used ultrasonication to disrupt the cell membranes and release the target molecules.
The technician demonstrated how to properly clean and maintain the ultrasonication probe.
The university invested in new ultrasonication equipment to support cutting-edge research.
The use of ultrasonication improved the clarity and stability of the beverage.
The use of ultrasonication significantly reduced the processing time.
Ultrasonication accelerates the dissolution of the solute in the solvent.
Ultrasonication can affect the structure and properties of the treated materials.
Ultrasonication can be employed to improve the adsorption capacity of activated carbon.
Ultrasonication can be used to break down agglomerates in powder mixtures.
Ultrasonication can be used to create nanoscale emulsions with specific droplet sizes.
Ultrasonication can be used to improve the efficiency of enzymatic reactions.
Ultrasonication can be used to remove biofilms from medical devices.
Ultrasonication can improve the dispersion of pigments in paints and coatings.
Ultrasonication can induce cavitation, which leads to localized high temperatures and pressures.
Ultrasonication facilitates the penetration of chemicals into porous materials.
Ultrasonication has emerged as a green alternative for various industrial processes.
Ultrasonication helped to degas the liquid, preventing bubble formation during the reaction.
Ultrasonication helped to reduce the viscosity of the slurry, making it easier to process.
Ultrasonication is a common technique in the field of materials science.
Ultrasonication is a powerful technique, but its application requires careful control to avoid unwanted side effects.
Ultrasonication is a promising technology for a variety of applications.
Ultrasonication is a promising technology for green chemistry applications.
Ultrasonication is a valuable tool for enhancing chemical reactions and physical processes.
Ultrasonication is a valuable tool for scientists and engineers.
Ultrasonication is a versatile tool that can be used in a wide range of industries.
Ultrasonication is an important tool for preparing samples for microscopy.
Ultrasonication is frequently employed for dispersing and deagglomerating nanomaterials.
Ultrasonication is increasingly being used in the development of novel pharmaceuticals.
Ultrasonication is increasingly used in the food industry for various applications.
Ultrasonication is often used in conjunction with other techniques for optimal results.
Ultrasonication is often used to accelerate the chemical reactions in organic synthesis.
Ultrasonication is particularly useful when dealing with insoluble or poorly soluble substances.
Ultrasonication is used for cell lysis, extraction, and emulsification in biotechnology.
Ultrasonication played a crucial role in the synthesis of the nanocomposite material.
Ultrasonication plays a key role in the preparation of stable colloidal suspensions.
Ultrasonication promotes the formation of smaller and more uniform crystals.
Ultrasonication proved crucial in dispersing the nanoparticles evenly throughout the polymer matrix.
Ultrasonication provided a means to increase the surface area of the catalyst.
Ultrasonication provides a rapid and efficient way to disrupt biological samples.
Ultrasonication-assisted emulsification creates stable and fine emulsions for cosmetic applications.
Ultrasonication-assisted enzymatic hydrolysis is a promising approach for biofuel production.
Ultrasonication-assisted extraction is a common technique in natural product research.
Ultrasonication-induced cavitation can lead to the formation of free radicals.
We used ultrasonication to disrupt the bacterial cells and extract their DNA.