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Microjet NanoGenizer and Micromix MixGenizer: the next generation homogenizer for nanomaterials

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Microjet technology is a method for producing nanomaterials in high-pressure fluid jets, enabling the scalable and efficient production of nanomaterials. In the vast field of manufacturing, an 'industrial mother machine' refers to equipment crucial for producing other machines or products. Nanomaterials, key raw materials for various functional products, find broad applications, and the NanoGenizer Microjet Homogenizer is one such device widely used in the preparation of nano-drug formulations and various emerging nanomaterials, making it a leading industrial mother machine for next-generation nanomaterials. High-pressure Micromix technology is an extension of M icrojet technology, where the Micromix   MixGenizer  High-Pressure Homogenizer generates nanomaterials by precisely controlling multiphase mixing. These two devices play fundamental and crucial roles in the production of advanced nanomaterials, holding significant importance in driving the entire field of nanotechnolog...

Using High-Pressure Microfluidic Homogenizers for Micro and Nano Emulsions

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High-pressure homogenization, especially in the context of creating microemulsions and nanoemulsions, stands as a pioneering innovation that transcends multiple industries. These ultra-fine emulsions, characterized by droplet sizes typically below 100 nanometers, offer a myriad of advantages. In this article, we will explore the unique benefits of harnessing high-pressure microfluidic homogenizers for the formulation of microemulsions and nanoemulsions.   Advantages of High-Pressure Microfluidic Homogenizers   High-pressure microfluidic homogenizers deliver a range of distinctive advantages when applied to the production of microemulsions and nanoemulsions:   Precision in Particle Size Control:   These homogenizers offer meticulous control over particle size reduction, ensuring droplets measure at or below 100 nanometers.   Consistent Dispersion : High-pressure microfluidic homogenizers ensure even dispersion, resulting in emulsions of remarkable stability. ...

3 Questions to Ask While Looking for a Liposome Extrusion Option

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Three questions to ask when looking for a liposome extrusion option   There are three questions to ask when you are choosing a liposome extrusion option. First, what pore size do you need? While a solo homogenizer reaches a liposome size of 20-30nm, any option with extrusion allows for more choice. Second, what power types do you have access to? The jacketed liposome extruders allow for gas power. An electric option is available if you go for a high-pressure homogenizer with or without an extruder. And manual options are available in the HandExtruder and HandGenizer.   Third, what scale of sample do you need to process? Genizer makes extrusion options from 1 mL to manufacturing scale. There are advantages coming from the various options as well to help you make your choice! R each out at  www.genizer.com  for more information.

Types of High Pressure Homogenizers: An Overview

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How are High Pressure Homogenizers are classified?   The Classification of High Pressure Homogenizers. High pressure homogenizers can be categorized based on various perspectives, including the power source, pressurization principle, and the design and structure of interaction chambers.   High pressure homogenizers: Classification   1.  b y energy source   Electric   Electric homogenizers are powered by an electric motor. This category of homogenizer can be further subdivided into two types: direct-drive and intensifier.     Electric high pressure homogenizer with intensifier Direct-drive type:  The motor drives the crankshaft to move the plunger back and forth, directly pressurizing the material. Multiple plungers in the crankshaft work together to produce constant pressure and a high flow rate; large quantities of materials are required to produce the constant pressure. To drive the crankshaft, the motor requires a multi-stage gear reductio...

How does NanoGenizer High-Pressure Homogenizer work?

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  The NanoGenizer Core Processing Unit   The NanoGenizer is a laboratory scale high-pressure homogenizer. There are two segments of the NanoGenizer, the power unit and the core processing unit. The core processing unit is where homogenization occurs. Before homogenization, the user places the sample in the inlet reservoir. Genizer offers a variety of options for your inlet reservoir. You may prefer a smaller or larger inlet reservoir depending upon the size of your sample. In addition to stainless steel, we offer plastic syringes and glass inlet reservoirs. Genizer also offers a variety of outlet reservoirs, where the sample goes after processing. You may prefer to use a jacketed glass cylinder, which you can connect to a laboratory chiller circulator for temperature control. Schematic of the NanoGenizer core processing unit,with the inlet reservoir, high-pressure pump, interaction chamber, heat exchanger and outlet reservoirFor small, valuable samples, the syringe option is b...

How to Properly Use a High Pressure Homogenizer?

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How to Properly Use a High Pressure Homogenizer ? High-pressure homogenizers are indispensable tools across various industries, including pharmaceuticals, food processing, and biotechnology. They perform a range of tasks, from cell disruption to particle size reduction. To ensure both efficient and safe operation, it is essential to have a thorough understanding of how to properly use a high-pressure homogenizer. In this article, we will provide a comprehensive guide, focusing on the essential steps for effective utilization. 1.  Understanding the Basics To begin, let's delve deeper into the core components and functionalities of a high-pressure homogenizer. A typical high-pressure homogenizer comprises a pump, a homogenization chamber, and various valves and connectors. The pump serves as the workhorse, generating the immense pressure required for the homogenization process. The homogenization chamber, often a microfluidic interaction chamber, is the stage where this process unfol...