The Fe-Core/Carbon-Shell Ultrafine Nanopowders as Platform for Biomolecules Grafting

N.S. Surgutskaya; P.S. Postnikov; Alexandra G. Pershina; A.I. Galanov; Marina E. Trusova; Alexey E. Sazonov

doi:10.4028/www.scientific.net/AMR.1040.194

Paper Titles

Study of Tungsten and Molybdenum Nanopowders Interaction with Sulphur in SHS Conditions and Synthesized Product Properties
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Technical and Economical Efficiency for Application of Nanomodified High-Strength Lightweight Concretes
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The Development of Photocatalytic Systems Entitled Titanium Dioxide Nanoparticles Attached to Polypropylene Fibrous Carrier for Freshwater Disinfection
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The Effect of Anisotropy in Polymeric Matrices on Compositional Properties at Various Temperatures
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The Fe-Core/Carbon-Shell Ultrafine Nanopowders as Platform for Biomolecules Grafting
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The Use of Alumina Nanoparticles as Modifiers of Galvanic Binder of Diamond Tools
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Transport of Reactants in Ultrathin Channels during the Etching Reaction
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Tribotechnical Properties of HA Nanocomposite Based on UHMWPE under Dry Sliding and Lubrication
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1040The Fe-Core/Carbon-Shell Ultrafine Nanopowders as...

The Fe-Core/Carbon-Shell Ultrafine Nanopowders as Platform for Biomolecules Grafting

Abstract:

The Fe-core/carbon-shell nanopowders are excellent platform for covalent grafting of biomolecules. The large-scale synthesis of Fe-core/carbon-shell nanoparticles via electropulse erosion of metal precursors in hydrocarbons was developed. The green fluorescent protein was covalently attached to the powder surface via diazonium functionalization and further carbodiimide activation.

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Advanced Materials Research (Volume 1040)

Pages:

194-198

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1040.194

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Online since:

September 2014

Authors:

N.S. Surgutskaya, P.S. Postnikov*, Alexandra G. Pershina, A.I. Galanov, Marina E. Trusova, Alexey E. Sazonov

Keywords:

Covalent Immobilization, Green Fluorescent Protein, Nanoparticle

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