Post by account_disabled on Feb 24, 2024 19:48:11 GMT 10
The development of the equipment is the main challenge and where most of the investment is made. Bellino said once this problem is solved mass production of the device will be very economical and microelectronic chips have solved this problem. He explained that although microfluidic devices already exist they are not yet available on a large scale. commercial. Bellino noted that microfluidics will enable concrete applications of techniques currently practiced in test tubes and micropipettes. Some research groups are developing technologies for sensing or detecting diseases or pollutants in soil for example but they are not moving towards commercial applications because they lack microfluidic circuits.
That’s why we offer them the Bahrain Phone Numbers List opportunity to work in the Atomic Center’s clean rooms so they can think about the applications of what they’re doing and translate it into products that go into the market. As a specific example he mentioned that microfluidic chips can be used to manufacture drugs through systems that control the mixing of ingredients to produce purer pharmacological drugs in a very precise manner. These devices can also be used in the cosmetics industry, which sells creams containing different nanoparticles or liposomes.
The manufacturing and quality of these products will be improved through microfluidics, Bellino said. Ongoing Projects The Institute of Nanoscience and Nanotechnology is working on several microfluidics projects. One of them is to create a device that creates microdroplets and separates liquids. In other words the aim is to create a controlled emulsion of droplets with the same properties so that cells or nanoparticles etc. can be introduced. In emulsions you can capture individual cells and study their behavior over time.
That’s why we offer them the Bahrain Phone Numbers List opportunity to work in the Atomic Center’s clean rooms so they can think about the applications of what they’re doing and translate it into products that go into the market. As a specific example he mentioned that microfluidic chips can be used to manufacture drugs through systems that control the mixing of ingredients to produce purer pharmacological drugs in a very precise manner. These devices can also be used in the cosmetics industry, which sells creams containing different nanoparticles or liposomes.
The manufacturing and quality of these products will be improved through microfluidics, Bellino said. Ongoing Projects The Institute of Nanoscience and Nanotechnology is working on several microfluidics projects. One of them is to create a device that creates microdroplets and separates liquids. In other words the aim is to create a controlled emulsion of droplets with the same properties so that cells or nanoparticles etc. can be introduced. In emulsions you can capture individual cells and study their behavior over time.