Desaired(Shanghai) Instrument Equipment Co., Ltd.

Are These Issues Hindering Your Development: Preventing You From Achieving Your Dispersion, Dmulsification, Homogenization, and Slurrying Goals?

The samples tend to clump together, making it difficult to disperse?

A: Secondary agglomeration of samples during dispersion can lead to uneven particle size distribution, making it impossible to obtain a stable and uniform dispersion system and affecting the repeatability and accuracy of subsequent experimental results. Traditional stirring or ultrasonic methods are time-consuming and have limited dispersion effects, especially for high-viscosity or nanoscale materials, which are inefficient and severely slow down the research and development process.

Poor equipment compatibility, making it difficult to handle high-viscosity products?

A: When dealing with highly viscous systems such as gels and pastes, conventional equipment is inefficient or poses safety hazards, lacking flexible and adaptable solutions. DISRAD disperser offers 72 different dispersion tools, providing a wide range of compatibility and allowing for flexible combinations of various dispersion tools.

Are heat-sensitive materials susceptible to damage?

A: Prolonged high-intensity ultrasound or high-speed shearing generates a large amount of heat, causing denaturation or degradation of heat-sensitive samples (such as proteins and polymers), affecting their functionality. DISRAD disperser has a wide processing range, with speeds from 3500 to 30000 rpm. Its proprietary series-C double-shaft sleeve design, combined with a crushing, honeycomb-shaped dispersion tool, reduces heat generation.

Small batch sample processing results in significant losses?

A: Conventional disperser suffers from "insufficient processing capacity" when processing trace samples, resulting in significant sample residue, low effective recovery rates, and waste of valuable materials. DISRAD offers a handheld dispersers with various diameter dispersion tools, capable of processing samples ranging from 0.5 ml to 600 ml.

It is difficult to achieve effective emulsification of oil-water, which makes it impossible to conduct scale-up tests?

A: Traditional methods for preparing nanoemulsions often fail to overcome interfacial tension, resulting in excessively large and widely distributed droplets, poor emulsion stability, and a tendency to separate. Dispersion schemes feasible in laboratory trials often fail during scale-up production, lacking scalability and hindering the transition from research and development to practical applications.

The homogenization process was not thorough, resulting in a low release rate of the target components?

A: In emulsion polymerization or nanomaterial synthesis, the initial state of the dispersed phase is uneven, leading to uneven nucleation, inconsistent particle size, and large batch-to-batch variations, making it difficult to achieve reproducible and precise synthesis. Furthermore, it results in low efficiency in disrupting animal and plant tissues or microbial cells, leading to incomplete cell wall disruption and affecting the extraction efficiency and purity of target molecules such as nucleic acids and proteins.