Description

Book Synopsis

This research text provides a concise overview of the technical approaches to the synthesis and characterization of hybrid nanoparticles, with a focus on one of the most promising ''bottom-up'' techniques for designing tailored hybrid nanoparticles based on the practical magnetron-sputtering inert-gas-condensation (MS-IGC) method. A modified MS-IGC system is presented, and its performance under different conditions is evaluated.


This fully revised second edition provides the latest developments in the design and characterization of hybrid nanoparticles produced by gas phase methods and includes a new chapter that explains how the design of the modified MS-IGC system is contributing to the shape transformation of nanoparticles (0D) to form nanorods (1D) with different aspect ratios.


Key features


Provides insight into one of the most promising ''bottom-up'' techniques for producing tailored hybrid nanoparticle

Designing Hybrid Nanoparticles Second Edition

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    £108.00

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    RRP £120.00 – you save £12.00 (10%)

    Order before 4pm tomorrow for delivery by Fri 19 Jun 2026.

    A Hardback by Maria Benelmekki

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      View other formats and editions of Designing Hybrid Nanoparticles Second Edition by Maria Benelmekki

      Publisher: Institute of Physics Publishing
      Publication Date: 5/7/2021 12:00:00 AM
      ISBN13: 9780750335850, 978-0750335850
      ISBN10: 0750335858

      Description

      Book Synopsis

      This research text provides a concise overview of the technical approaches to the synthesis and characterization of hybrid nanoparticles, with a focus on one of the most promising ''bottom-up'' techniques for designing tailored hybrid nanoparticles based on the practical magnetron-sputtering inert-gas-condensation (MS-IGC) method. A modified MS-IGC system is presented, and its performance under different conditions is evaluated.


      This fully revised second edition provides the latest developments in the design and characterization of hybrid nanoparticles produced by gas phase methods and includes a new chapter that explains how the design of the modified MS-IGC system is contributing to the shape transformation of nanoparticles (0D) to form nanorods (1D) with different aspect ratios.


      Key features


      Provides insight into one of the most promising ''bottom-up'' techniques for producing tailored hybrid nanoparticle

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