Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation

Dreyer A, Eckstädt K, Koop T, Jutzi P, Hütten A (2016)
RSC ADVANCES 6(78): 74061-74066.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
Autor*in
Dreyer, A.; Eckstädt, KatrinUniBi; Koop, ThomasUniBi ; Jutzi, PeterUniBi; Hütten, AndreasUniBi
Einrichtung
Fakultät für Physik > AG Dünne Schichten & Physik der Nanostrukturen
Fakultät für Chemie
Abstract / Bemerkung
Particle formation can occur by way of a classical or non-classical nucleation pathway. We show that during the bottom-up synthesis of cobalt particles the degree of particle surface stabilization determines the formation pathway. Without additives, young cobalt particles are liquid because of the size-dependent melting point depression, and crystallization starts only after growth by coalescence, in accord to a non-classical pathway. Addition of surfactants during synthesis leads to particle surface stabilization and, thus, an elevated melting point such that a crystalline nucleus is formed in a classical pathway.
Erscheinungsjahr
2016
Zeitschriftentitel
RSC ADVANCES
Band
6
Ausgabe
78
Seite(n)
74061-74066
ISSN
2046-2069
Page URI
https://pub.uni-bielefeld.de/record/2905986

Zitieren

Dreyer A, Eckstädt K, Koop T, Jutzi P, Hütten A. Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation. RSC ADVANCES. 2016;6(78):74061-74066.
Dreyer, A., Eckstädt, K., Koop, T., Jutzi, P., & Hütten, A. (2016). Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation. RSC ADVANCES, 6(78), 74061-74066. doi:10.1039/c6ra13041k
Dreyer, A., Eckstädt, Katrin, Koop, Thomas, Jutzi, Peter, and Hütten, Andreas. 2016. “Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation”. RSC ADVANCES 6 (78): 74061-74066.
Dreyer, A., Eckstädt, K., Koop, T., Jutzi, P., and Hütten, A. (2016). Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation. RSC ADVANCES 6, 74061-74066.
Dreyer, A., et al., 2016. Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation. RSC ADVANCES, 6(78), p 74061-74066.
A. Dreyer, et al., “Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation”, RSC ADVANCES, vol. 6, 2016, pp. 74061-74066.
Dreyer, A., Eckstädt, K., Koop, T., Jutzi, P., Hütten, A.: Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation. RSC ADVANCES. 6, 74061-74066 (2016).
Dreyer, A., Eckstädt, Katrin, Koop, Thomas, Jutzi, Peter, and Hütten, Andreas. “Surface stabilization determines a classical versus non-classical nucleation pathway during particle formation”. RSC ADVANCES 6.78 (2016): 74061-74066.
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