The Assembly of Coated Nanocrystals

  1. Luis Liz-Marzán 1
  2. Paul Mulvaney 2
  1. 1 CIC biomaGUNE and CIBER-BBN, Paseo de Miramón 182, 20014 Donostia-San Sebastián, Spain
  2. 2 Centre of Excellence in Exciton Science, School of Chemistry, University of Melbourne, Parkville, VIC, 3010 Australia
Buch:
Colloidal Synthesis of Plasmonic Nanometals
  1. Luis Liz-Marzán (coord.)

Verlag: Jenny Stanford Publishing

ISBN: 9780429295188 9789814800679

Datum der Publikation: 2020

Seiten: 89-130

Art: Buch-Kapitel

Zusammenfassung

Classically, a sample of any bulk material exhibits two obvious length scales: the first is simply its macroscopic size, and the second, less-obvious one is a nanometer periodicity that is due to the lattice structure of the component atoms or other underlying constituents. K. H. Muller and colleagues recently quantified the bulk conductivity of a coated nanocrystal assembly, in terms of the individual particle sizes, the parallel conduction routes, and the barrier thickness. In this case, the conductivity is controlled by the barrier thickness (coating thickness) and the number of barriers per unit length. This chapter summarizes some of the key synthetic improvements and breakthroughs in the creation of different core–shell nanocrystals. It presents a survey of several procedures that have allowed the encapsulation of metal, semiconductor, and magnetic nanocrystals with metal oxides, as well as the main advantages that have thereby been acquired.