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微流控乳化系统

微流控制备仪 MPE-L1

微流控制备仪 MPE-L1Microfluidic Preparation Equipment: MPE-L1微流控技术Microfluidic Technology微流控(Microflu

微流控制备仪 MPE-L1

Microfluidic Preparation Equipment: MPE-L1

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微流控技术

Microfluidic Technology


微流控(Microfluidic)技术是一种基于(微)流体力学理论,在管线中实现样品制备与加工的技术。完美的将微流体的理化模型与流体力学理论相结合,可实现样品的混合、乳化及分离纯化等功能。

Microfluidic technology is a kind of technology based on the theory of Microfluidicsfluid mechanics, which can realize the sample preparation and processing in the pipeline. The perfect combination of the physical and chemical model of microfluidics and the theory of hydrodynamics can realized the functions of sample mixing, emulsification, separation and purification.


微流控技术将过程控制技术(Process Control TechnologyPCT)与过程分析技术(Process Analytical TechnologyPAT)相结合,可实现良好的在线样品制备技术(On-line Preparation TechnologyOPT)。样品在连续化制备的过程中,工艺过程中参数完全可控,且具备良好重现性,所以较传统分步割裂式制备、分批次生产的方法来说更具有可放大性。

Microfluidic technology combines process control technology (PCT) with process analytical technology (PAT) to realize good on-line preparation technology (OPT). In the process of continuous preparation, the parameters in the process are completely controllable and have good reproducibility, so it can be better applied applied to production than traditional method of step-by-step split preparation and batch production.


可实现样品的初乳化、复乳化、粒径控制功能。

Can realize the functions of initial emulsification, re-emulsification and particle size control. 


微流控制备系统通过制备泵和高压输送泵与微流控芯片相连接,A相和B相可按照一定的比例恒速的输送至芯片中进行混合,乳化。在微流控芯片中通过设计不同的流道结构,控制不同的速度,使得样品在微流控芯片中达到湍流、层流或雾化状态,可以实现样品的初乳化或复乳化的要求。

Microfluidic preparation system is connected with microfluidic chip by fabricating pump and high-pressure conveying pump. Phase A and phase B can be mixed and emulsified at constant speed in a certain proportion. In microfluidic chips, different runner structures are designed and different velocities are controlled to make the samples turbulent, laminar or atomized in the microfluidic chips, which can meet the requirements of pre-emulsification  or re-emulsification.


制备好的样品通过高压泵输送至高压微流控芯片中,通过撞击力和剪切力来控制粒径,使其达到所需范围内。粒径最小可达到100nm以内,PDI0.1以下。

The prepared samples were transported to the high pressure microfluidic chip by high-pressure pump, and the particle size was controlled by impact force and shear force to reach the required range. The smallest particle size can be less than 100nm, and PDI can be less than 0.1.




微流控芯片 

Microfluidic Chips

微流控芯片是基于应用工艺的定制型特殊流道结构部件,其通道结构和尺寸均与项目工艺需求相结合,属定制型结构件。具体来说可实现以下四种功能:

Microfluidic chip is a customized special channel structure component based on the application process. Its channel structure and size are combined with the process requirements of the project. Specifically, the following four functions can be realized:


(1)     两相的混合、乳化;

Mixing and emulsification of two phases;


(2)     微粒形成后的孵育;

Incubation after particle formation;


(3)     微粒形成后的粒径控制;

Particle size control after particle formation;


(4)     二次混合或乳化。

Secondary mixing or emulsification after particle formation.



芯片 

Typical Chips


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技术参数

Technical Parameter


流量范围Flow rangeml/min: 0.1200

压力范围PressureMPa: 0-25

温度控制Temperature(℃): 4100

流量设定误差% Flow rate errorml/min≤±1%

流量重复性误差% Flow repeatability errorml/min1%

压力脉动Pressure fluctuationMPa0.1

压力准确度Pressure accuracyMPa0.1

芯片通道尺寸Chip channel size: 20um~3mm