Quantum Dots for Sensing
Author:
Publisher
Springer US
Link
http://link.springer.com/content/pdf/10.1007/978-0-387-77753-5_6
Reference159 articles.
1. Brus LE (1984). Electron–electron and electron–hole interactions in small semiconductor crystallites – the size dependence of the lowest excited electronic state, J Chem Phys, 80, 9: 4403–4409.
2. Gaponenko SV (1998). Optical Properties of Semiconductor nanocrystals. Cambridge University Press, Cambridge.
3. Murphy CJ and Coffer JL (2002). Quantum dots: A primer, Appl Spectrosc, 56, 1: 16A–27A.
4. Bryant GW and Solomon GS (2005). Optics of Quantum Dots and Wires. Artech House, Boston, MA.
5. Neumann W, Kirmse H, Hausler I, et al. (2004). Quantitative TEM analysis of quantum structures, J Alloy Comp, 382, 1–2: 2–9.
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