Micro nano formulation pilot scale microfluidic controlled preparation instrument for liposome microemulsion

NegotiableUpdate on 05/25

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Overview

Compared with traditional preparation methods, the liposome microemulsion prepared by the micro nano formulation pilot microfluidic control preparation instrument has the advantages of controllable particle size and morphology, green monodispersity, and low consumption. Due to its micrometer scale channel structure, excellent droplet and flow control performance, and fast heat and mass transfer rates, this technology has been widely used in the efficient synthesis of micro nano materials such as metal particles, silica, nano zeolites, quantum dots, and metal organic framework materials (MO). This technology method has the advantages of significantly reducing preparation time and good product size uniformity.

Product Details

　　Micro nano formulation pilot scale microfluidic controlled preparation instrument for liposome microemulsionDetailed introduction:

The traditional preparation methods of nanomaterials are divided into physical methods and chemical methods. Physical methods, such as sputtering, vacuum deposition, ball milling, etc., require expensive equipment and produce nanomaterials with low yield, easy oxidation, and strict agglomeration. Wetting methods, such as reverse phase micelle polymerization template method and high-temperature hydrolysis method, are both used to synthesize nanomaterials in the liquid phase. The surface of the materials generally contains organic stable molecules to prevent the aggregation and oxidation of the prepared nanomaterials. However, liquid-phase synthesis methods mostly require high reaction temperatures (200 ℃), which limits the use of many solvents and reagents, and require multiple purification steps in the later stage to obtain stable products. Meanwhile, it is difficult to achieve precise control of reaction conditions during the synthesis process, and there are still significant challenges in preparing complex nanomaterials such as core-shell structures and multilevel structures. Therefore, it is of great research significance to develop high-quality preparation methods and platforms for nanomaterials, as well as efficient nano analysis methods.

Compared with traditional preparation methods, adoptingMicro nano formulation pilot scale microfluidic control preparation instrumentfatPlastid microemulsionPreparation of nanomaterials with controllable particle size and morphology, monodispersity, green color, and low consumption advantages. Due to its micrometer scale channel structure, excellent droplet and flow control performance, and fast heat and mass transfer rates, this technology has been widely used in the efficient synthesis of micro nano materials such as metal particles, silica, nano zeolites, quantum dots, and metal organic framework materials (MO). This technology method has the advantages of significantly reducing preparation time and good product size uniformity.

Microfluidic technology is considered one of the important cutting-edge technologies due to its characteristics of analytical miniaturization and experimental flux. The main implementation forms of microfluidic technology are microfluidic chips or chip laboratories. It is mainly based on biochemistry and analytical chemistry, relying on microelectromechanical processing technology in micro total analysis systems, and using microchannel networks as connecting features. It integrates the functions of the entire analysis laboratory, including sampling, sample pretreatment, reaction, separation, detection, etc., on a chip of a few square centimeters for analysis.

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