Optimizing multiphoton chemistry for 3D optical processes and technologies

Joseph W. Perry; Sundaravel Ananthavel; Stephen M. Kuebler; Seth R. Marder; Mariacristina Rumi; Francesco Stellacci; Brian H. Cumpston; Ahmed A. Heikal; Jeffrey E. Ehrlich; Lael L. Erskine; Matthew Lipson; Diane McCord-Maughon; Harald Rockel

Optimizing multiphoton chemistry for 3D optical processes and technologies

Joseph W. Perry, Sundaravel Ananthavel, Stephen M. Kuebler, Seth R. Marder, Mariacristina Rumi, Francesco Stellacci, Brian H. Cumpston, Ahmed A. Heikal, Jeffrey E. Ehrlich, Lael L. Erskine, Matthew Lipson, Diane McCord-Maughon, Harald Rockel

Chemistry & Biochemistry

Research output: Contribution to conference › Paper › peer-review

Abstract

A wide array of chromophores which hold great promise for two-photon applications has been developed. These molecules were based on a donor-π-donor, donor-acceptor-donor, or acceptor-donor-acceptor structural motifs. It has been shown that the magnitude of the two-photon absorption cross section, δ, and the position of the two-photon absorption maximum can be controlled by varying the length of the conjugated bridge and by varying the strength of the donor and acceptor groups.

Original language	English (US)
Pages	168-169
Number of pages	2
State	Published - Dec 1 2000
Event	Quantum Electronics and Laser Science Conference (QELS 2000) - San Francisco, CA, USA Duration: May 7 2000 → May 12 2000

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Other	Quantum Electronics and Laser Science Conference (QELS 2000)
City	San Francisco, CA, USA
Period	5/7/00 → 5/12/00

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Perry, J. W., Ananthavel, S., Kuebler, S. M., Marder, S. R., Rumi, M., Stellacci, F., Cumpston, B. H., Heikal, A. A., Ehrlich, J. E., Erskine, L. L., Lipson, M., McCord-Maughon, D., & Rockel, H. (2000). Optimizing multiphoton chemistry for 3D optical processes and technologies. 168-169. Paper presented at Quantum Electronics and Laser Science Conference (QELS 2000), San Francisco, CA, USA.

Perry, JW, Ananthavel, S, Kuebler, SM, Marder, SR, Rumi, M, Stellacci, F, Cumpston, BH, Heikal, AA, Ehrlich, JE, Erskine, LL, Lipson, M, McCord-Maughon, D & Rockel, H 2000, 'Optimizing multiphoton chemistry for 3D optical processes and technologies', Paper presented at Quantum Electronics and Laser Science Conference (QELS 2000), San Francisco, CA, USA, 5/7/00 - 5/12/00 pp. 168-169.

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abstract = "A wide array of chromophores which hold great promise for two-photon applications has been developed. These molecules were based on a donor-π-donor, donor-acceptor-donor, or acceptor-donor-acceptor structural motifs. It has been shown that the magnitude of the two-photon absorption cross section, δ, and the position of the two-photon absorption maximum can be controlled by varying the length of the conjugated bridge and by varying the strength of the donor and acceptor groups.",

author = "Perry, {Joseph W.} and Sundaravel Ananthavel and Kuebler, {Stephen M.} and Marder, {Seth R.} and Mariacristina Rumi and Francesco Stellacci and Cumpston, {Brian H.} and Heikal, {Ahmed A.} and Ehrlich, {Jeffrey E.} and Erskine, {Lael L.} and Matthew Lipson and Diane McCord-Maughon and Harald Rockel",

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AU - Perry, Joseph W.

AU - Ananthavel, Sundaravel

AU - Kuebler, Stephen M.

AU - Marder, Seth R.

AU - Rumi, Mariacristina

AU - Stellacci, Francesco

AU - Cumpston, Brian H.

AU - Heikal, Ahmed A.

AU - Ehrlich, Jeffrey E.

AU - Erskine, Lael L.

AU - Lipson, Matthew

AU - McCord-Maughon, Diane

AU - Rockel, Harald

PY - 2000/12/1

Y1 - 2000/12/1

N2 - A wide array of chromophores which hold great promise for two-photon applications has been developed. These molecules were based on a donor-π-donor, donor-acceptor-donor, or acceptor-donor-acceptor structural motifs. It has been shown that the magnitude of the two-photon absorption cross section, δ, and the position of the two-photon absorption maximum can be controlled by varying the length of the conjugated bridge and by varying the strength of the donor and acceptor groups.

AB - A wide array of chromophores which hold great promise for two-photon applications has been developed. These molecules were based on a donor-π-donor, donor-acceptor-donor, or acceptor-donor-acceptor structural motifs. It has been shown that the magnitude of the two-photon absorption cross section, δ, and the position of the two-photon absorption maximum can be controlled by varying the length of the conjugated bridge and by varying the strength of the donor and acceptor groups.

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T2 - Quantum Electronics and Laser Science Conference (QELS 2000)

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ER -

Optimizing multiphoton chemistry for 3D optical processes and technologies

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