Explain mesoscopic domain
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The mesoscopic domain encompasses structures that are best described in terms of the time and length scales which liebetween the two extremes of the molecular and the phenomenological description of materials.
Important examples of such structures are self-assemblies, emulsions, gels, colloids aggregates and macromolecules networks.Just to remember mesoscopic is inbetween the micro and macro domain for ex it deals with groups of atoms molecules etc.
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Important examples of such structures are self-assemblies, emulsions, gels, colloids aggregates and macromolecules networks.Just to remember mesoscopic is inbetween the micro and macro domain for ex it deals with groups of atoms molecules etc.
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Mesoscopic science, where materials become life and life inspires materials. A great opportunity to push back the frontiers of life, materials, and biomaterials sciences.
The word, “mesoscopic,” may be quite new for those from the biological background. If your scientific base is physics, however, you may know it from “mesoscopic physics,” which indicates physics on the scale between nanometers and micrometers where quantum phenomena appear to interfere with macroscopic, statistical physics principles.
So far, research into functional materials has usually favoured the bulk scale. However, recent studies have led to the development of soft-crystalline particles and functional architectures in the mesoscale. Individual molecules at the nano-level, as well as solids larger than one micron, both tend to have singular, clearly defined functions. Mesoscopic materials, in contrast, are able to adapt smart functions for desired purposes, creating flexible and reciprocal relationships that are inspired by the fluctuating architectures inside living cells. An ability to freely design, build, and employ functional mesoscopic materials will lead to unprecedented technologies in biomaterials science with applications in the control of living cells and systems, including human bodies.
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Shreya
The word, “mesoscopic,” may be quite new for those from the biological background. If your scientific base is physics, however, you may know it from “mesoscopic physics,” which indicates physics on the scale between nanometers and micrometers where quantum phenomena appear to interfere with macroscopic, statistical physics principles.
So far, research into functional materials has usually favoured the bulk scale. However, recent studies have led to the development of soft-crystalline particles and functional architectures in the mesoscale. Individual molecules at the nano-level, as well as solids larger than one micron, both tend to have singular, clearly defined functions. Mesoscopic materials, in contrast, are able to adapt smart functions for desired purposes, creating flexible and reciprocal relationships that are inspired by the fluctuating architectures inside living cells. An ability to freely design, build, and employ functional mesoscopic materials will lead to unprecedented technologies in biomaterials science with applications in the control of living cells and systems, including human bodies.
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Shreya
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