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Organometallic complexes for nonlinear optics: Part 31. Cubic hyperpolarizabilities of ferrocenyl-linked gold and ruthenium complexes
Stephanie K. Hurst
, Mark G. Humphrey
, Joseph P. Morrall
, Marie P. Cifuentes
, Marek Samoc
, Barry Luther-Davies
, Graham A. Heath
, Anthony C. Willis
Chemistry and Biochemistry
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Contribution to journal
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Article
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peer-review
65
Scopus citations
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Dive into the research topics of 'Organometallic complexes for nonlinear optics: Part 31. Cubic hyperpolarizabilities of ferrocenyl-linked gold and ruthenium complexes'. Together they form a unique fingerprint.
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Keyphrases
Nonlinear Optics
100%
Organometallic Complexes
100%
Hyperpolarizability
100%
Ruthenium Complexes
100%
Gold Complexes
100%
Dppm
100%
CH 4
100%
C(V)
100%
FEniCS
100%
Ferrocenyl
100%
Fe(II)
50%
Dppe
50%
PPh3
50%
Reversible Oxidation
50%
Z-scan
50%
Cubic Nonlinearity
50%
Two-photon Absorption Cross-section
50%
Non-reversible
50%
Single Crystal X-ray
50%
NLO Material
50%
Imag
50%
Cyclic Voltammogram
50%
X-ray Structural Studies
50%
Ferrocenyl Group
50%
Chemistry
Ruthenium
100%
Organometallic Complexes
100%
Single Crystalline Solid
100%
Iron Complex
100%
Hyperpolarizability
100%
Absorption Cross-Section
100%
Two-Photon Absorption
100%