Can we synthesize hierarchal porous materials for nanoparticle chromatography?
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Yes, hierarchical porous materials can be synthesized for nanoparticle chromatography. One approach is to use heterostructured porous particles combined with paper strips, allowing for spontaneous separation of similarly sized proteins . Another method involves the synthesis of hierarchical porous polymer nanoparticles through cyclotrimerization of 1,4-dicyanobenzene in molten ZnCl2, resulting in enhanced mass transfer and easy access to active sites . Additionally, microporous heterogeneous nanowires can be employed as building blocks for porous nanonetwork structured polymers, leading to unique three-dimensional hierarchical nanonetwork morphologies . Templating silica microparticles with a specially designed surfactant micelle/oil nanoemulsion mixture can also produce particles with hierarchical porosity, allowing for precise tailoring of the pore structure . These methods offer new avenues for fabricating hierarchical porous materials for nanoparticle chromatography.
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| Papers (5) | Insight |
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18 Citations | The paper discusses the synthesis of hierarchical porous particles for various applications, including chromatography separations. Therefore, yes, hierarchical porous materials can be synthesized for nanoparticle chromatography. |
2 Citations | The provided paper discusses the synthesis of hierarchical porous polymers with a nanowire-interconnected network structure. It does not specifically mention nanoparticle chromatography. |
1 Citations | The paper does not specifically mention the synthesis of hierarchical porous materials for nanoparticle chromatography. The paper focuses on the development of versatile nanocomposite building blocks and the design of composite materials at different length scales. |
17 Feb 2021 | The provided paper discusses the synthesis of hierarchical porous polymer nanoparticles for methylene blue adsorption. It does not specifically mention the synthesis of hierarchical porous materials for nanoparticle chromatography. |
1 Citations | The paper does not mention the synthesis of hierarchical porous materials for nanoparticle chromatography. |
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