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Electronic energy transfer from the S
2
state of rhodamine 6G
Israel Kaplan
*
,
Joshua Jortner
*
Corresponding author for this work
School of Chemistry
Tel Aviv University
Research output
:
Contribution to journal
›
Article
›
peer-review
31
Scopus citations
Overview
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2
state of rhodamine 6G'. Together they form a unique fingerprint.
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Keyphrases
Thiophene
100%
Tert-butyl
100%
S2 State
100%
Electronic Energy Transfer
100%
Rhodamine 6G (Rh6G)
100%
Two-photon Excitation
33%
Sequential Time
33%
Quantitative Measurement
16%
Energy Transfer Process
16%
Second Harmonic
16%
Ultrashort
16%
Mode-locking
16%
Fluorescence Intensity
16%
First Harmonic
16%
Acceptor Concentration
16%
Forster
16%
Donor States
16%
Energy Acceptor
16%
Glass Laser
16%
Fluorescence Yield
16%
Singlet Excited State
16%
Nd3+
16%
Emission Quantum Yield
16%
Dexter
16%
Chemistry
Fluorescence Resonance Energy Transfer
100%
Thiophene
100%
Rhodamine 6G
100%
Donor
33%
Ground State
16%
Quantum Yield
16%
Energy Transfer Processes
16%
Fluorescence Intensity
16%
Excited Singlet State
16%
Forster Synthesis
16%