Sulfur-Rich Compounds
J. Phys. Chem. A, Vol. 103, No. 35, 1999 6937
of S atoms does not, by itself, give rise to optimal properties;
rather, the electronic polarizability correlates with the number
(12) Sheik-Bahae, M.; Said, A. A.; Wei, T.-H.; Hagan, D. J.; Van
Stryland, E. W. IEEE J. Quantum Electron. 1990, 26, 760. Values given
here are in SI units. To convert to esu, the following conversion is used:
2-
of sulfido (S ) centers. Our survey identified two structural
families with particularly promising optical properties, the Zn-
S-SPh clusters and the condensed dithiocarbonates. In both
cases the greatest figures of merit were obtained for the largest
molecules. Further synthetic work is planned to develop related
structures with still more extended structures.
Previous work on the second hyperpolarizability of sulfur-
rich compounds examined only species with substantial linear
absorption coefficients. The present work shows that high figures
of merit can be achieved without the undesirable effects of linear
absorption.
4 2
(
3 × 10 )
(
3)
(3)
SI
ø
)
ø
esu
4
πꢀ
0
(
13) Winter, C. S.; Oliver, S. N.; Manning, R. J.; Rush, J. D.; Hill, C.
A. S.; Underhill, A. E. J. Mater. Chem. 1992, 2, 443.
14) W and T are used in the literature. We wanted to define figures of
(
merit whose terminology was consistent with this prior use, yet express
them in such a way as to be intensity-independent and large when favorable.
(
15) Galloway, C. P.; Doxsee, D. D.; Fenske, D.; Rauchfuss, T. B.;
Wilson, S. R.; Yang, X. Inorg. Chem. 1994, 33, 4537.
(16) Yu, L.; Zhu, D. Phosphorus, Sulfur Silicon Relat. Elem. 1996, 116,
25.
2
(
17) Dance, I. G.; Choy, A.; Scudder, M. L. J. Am. Chem. Soc. 1984,
Acknowledgment. This work was supported by grants from
the Department of Energy, DOE DEFG (T.B.R.) through the
Seitz Materials Research Laboratory, the National Science
Foundation, DMR 97-14843 (D.D.D.), and a contract from the
Air Force Office of Scientific Research, F4960-97-1-0056
1
06, 6285.
(
18) Compton, D. L.; Brandt, P. F.; Rauchfuss, T. B.; Rosenbaum, D.
F.; Zukoski, C. F. Chem. Mater. 1995, 7, 2342.
19) Steimecke, G.; Sieler, H. J.; Kirmse, R.; Hoyer, E. Phosphorus
Sulfur 1979, 7, 49.
20) Steimecke, G.; Sieler, H.-J.; Kirmse, R.; Dietzsch, W.; Hoyer, E.
(
(
(D.D.D.). L.K.I. acknowledges support from the AASERT
Phosphorus Sulfur Relat. Elem. 1982, 12, 237.
(21) Yang, X.; Rauchfuss, T. B.; Wilson, S. R. J. Chem. Soc., Chem.
Commun. 1990, 34.
program, sponsored by the U.S. Army Research Office, Contract
DAAG55-98-1-0191. We thank one referee for insightful
comments and criticisms.
(22) Dance, I. G. Aust. J. Chem. 1978, 31, 2195.
(
23) Tian, J.-G.; Zang, W. P.; Zhang, C. Z.; Zhang, G. Appl. Opt. 1995,
2
1, 4331.
(24) Hughes, S.; Burzler, J. M.; Spruce, G.; Wherrett, B. S. J. Opt. Soc.
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1