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Author: Tronserve admin

Wednesday 28th July 2021 03:09 PM

Nanoscale 3D Printing Technique Uses Micro-Pyramids to Build Better Biochips


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Making biochips, a crucial technology in studying disease, just got a slight easier. This new nanoprinting process uses gold-plated pyramids, an LED light, and photochemical reactions to print more organic material on the surface of one single biochip than you ever have.


The technique uses a variety of polymer pyramids that are covered in gold and fitted onto an atomic force microscope. These arrays, which are one square centimeter in size, consists of thousands of tiny pyramids with holes that enable light through, and be certain that the light goes only to specific places on the surface of a chip below, immobilizing delicate organic reagants on the chip’s surface without damaging them.


Processes like this, known as tip-based lithography, are generally assumed to be the best way to 3D print organic material with nanoscale feature resolution. But in the past, they were limited by the fact that they could only print one kind of molecule each time.


Now researchers at Hunter College and the Advanced Science Research Center (ASRC) at The Graduate Center of the City University of New York think they have fixed that problem.


They're using microfluidics, the manipulation of fluids on a molecular level, to expose each biochip to the desired combination of chemicals. Then, they use photochemistry to shine light through the apertures in the pyramids. As the light responds with the molecules, it cling them to the chip.


With typical tip-based lithography systems, the light can overpower the chip, defeating some molecules. But the CUNY research team uses beam-pen lithography, where the light is constrained and channeled through small apexes. This allows the team to control the light and protect the organic materials that they have already printed on the biochip.


Adam Braunschweig, the head researcher and an associate professor with the ASRC’s Nanoscience Initiative and Hunter College’s Department of Chemistry, says this method of 3D printing biochips may help scientists understand cells and biological pathways. This is because this technology should make it easier and more excellent to analyze disease development and treat other biological puzzles, such as detecting bioterrorism agents.


Source: IEE Spectrum


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Posted on : Wednesday 28th July 2021 03:09 PM

Nanoscale 3D Printing Technique Uses Micro-Pyramids to Build Better Biochips


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Posted by  Tronserve admin
image cap

Making biochips, a crucial technology in studying disease, just got a slight easier. This new nanoprinting process uses gold-plated pyramids, an LED light, and photochemical reactions to print more organic material on the surface of one single biochip than you ever have.


The technique uses a variety of polymer pyramids that are covered in gold and fitted onto an atomic force microscope. These arrays, which are one square centimeter in size, consists of thousands of tiny pyramids with holes that enable light through, and be certain that the light goes only to specific places on the surface of a chip below, immobilizing delicate organic reagants on the chip’s surface without damaging them.


Processes like this, known as tip-based lithography, are generally assumed to be the best way to 3D print organic material with nanoscale feature resolution. But in the past, they were limited by the fact that they could only print one kind of molecule each time.


Now researchers at Hunter College and the Advanced Science Research Center (ASRC) at The Graduate Center of the City University of New York think they have fixed that problem.


They're using microfluidics, the manipulation of fluids on a molecular level, to expose each biochip to the desired combination of chemicals. Then, they use photochemistry to shine light through the apertures in the pyramids. As the light responds with the molecules, it cling them to the chip.


With typical tip-based lithography systems, the light can overpower the chip, defeating some molecules. But the CUNY research team uses beam-pen lithography, where the light is constrained and channeled through small apexes. This allows the team to control the light and protect the organic materials that they have already printed on the biochip.


Adam Braunschweig, the head researcher and an associate professor with the ASRC’s Nanoscience Initiative and Hunter College’s Department of Chemistry, says this method of 3D printing biochips may help scientists understand cells and biological pathways. This is because this technology should make it easier and more excellent to analyze disease development and treat other biological puzzles, such as detecting bioterrorism agents.


Source: IEE Spectrum

Tags:
biochips nanoscale nanoscale 3d printing micro pyramics