An Optical Power Limiting and Ultrafast Photophysics Investigation of a Series of Multi-Branched Heavy Atom Substituted Fluorene Molecules

A common molecular design paradigm for optical power limiting (OPL) applications is to introduce heavy atoms that promote intersystem crossing and triplet excited states. In order to investigate this effect, three multi-branched fluorene molecules were prepared where the central moiety was either an organic benzene unit, para-dibromobenzene, or a platinum(II)–alkynyl unit. All three molecules showed good nanosecond OPL performance in solution. However, only the dibromobenzene and Pt–alkynyl compounds showed strong microsecond triplet excited state absorption (ESA). To investigate the photophysical cause of the OPL, especially for the fully organic molecule, photokinetic measurements including ultrafast pump–probe spectroscopy were performed. At nanosecond timescales, the ESA of the organic molecule was larger than the two with intersystem crossing (ISC) promoters, explaining its good OPL performance. This points to a design strategy where the singlet-state ESA is balanced with the ISC rate to increase OPL performance at the beginning of a nanosecond pulse.

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Access to the Triplet Excited States of Heavy-Atom-Free Boron-Dipyrromethene Photosensitizers via Radical Pair Intersystem Crossing for Image-Guided Tumor-Targeted Photodynamic Therapy

Chemistry of Materials ◽

10.1021/acs.chemmater.1c02776 ◽

2021 ◽

Vol 33 (19) ◽

pp. 7889-7896

Author(s):

Van-Nghia Nguyen ◽

Jeongsun Ha ◽

Chang Woo Koh ◽

Bokyeong Ryu ◽

Gyoungmi Kim ◽

...

Keyword(s):

Photodynamic Therapy ◽

Excited States ◽

Radical Pair ◽

Heavy Atom ◽

Intersystem Crossing ◽

Image Guided ◽

Boron Dipyrromethene ◽

Targeted Photodynamic Therapy ◽

Triplet Excited States

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Excited State Absorption in Dendrimers Incorporating Diphenylaminodiphenylpolyene Moieties Via Photo-Induced Electron Transfer

MRS Proceedings ◽

10.1557/proc-597-363 ◽

1999 ◽

Vol 597 ◽

Author(s):

W. Sonnenberg ◽

A Hyfield ◽

K Short ◽

L. Spangler ◽

C. Spangler

Keyword(s):

Electron Transfer ◽

Excited State ◽

Excited States ◽

Cross Sections ◽

Excited State Absorption ◽

Optical Power ◽

Triplet States ◽

New Material ◽

Photo Induced Electron Transfer ◽

Optical Power Limiting

AbstractDuring the past decade there has been considerable progress in the design of new organic materials for optical power limiting (OPL) applications. Among the more promising of the new material approaches are reverse saturable absorbers (RSAs) which derive their optical limiting capability from the photogeneration of highly absorbing transient excited states. Most of the previous research in this field has focused on excited state absorption from singlet or triplet states whose cross-sections are greater than the original S0 – S1 transition- However, other transient states, such as polaronic radical ions or bipolaronic diions, formed by photo-induced electron transfer, are attractive alternatives. We have initiated studies to determine if these transient charge states can be photo-generated efficiently, and if their excited states absorption and lifetimes are acceptable for current optical power limiting requirements.

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Conformational torsion, intramolecular hydrogen bonding and solvent effects in intersystem crossing of singlet-triplet excited states for heavy-atom-free organic long persistent luminescence

Journal of Molecular Liquids ◽

10.1016/j.molliq.2021.115291 ◽

2021 ◽

pp. 115291

Author(s):

Yanan Wang ◽

Yurong Guo ◽

Zibo Wu ◽

Haoyue Zhang ◽

Chao Wang ◽

...

Keyword(s):

Hydrogen Bonding ◽

Excited States ◽

Solvent Effects ◽

Heavy Atom ◽

Intramolecular Hydrogen Bonding ◽

Intersystem Crossing ◽

Persistent Luminescence ◽

Intramolecular Hydrogen ◽

Triplet Excited States

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Synthesis, Characterization, and Photophysics of a New Trinuclear Mercury(II) Complex of 1,3,5-Triethynylbenzene

Australian Journal of Chemistry ◽

10.1071/ch06177 ◽

2006 ◽

Vol 59 (7) ◽

pp. 434 ◽

Cited By ~ 8

Author(s):

Li Liu ◽

Wai-Yeung Wong ◽

Cheuk-Lam Ho

Keyword(s):

Excited State ◽

Photophysical Properties ◽

Heavy Atom ◽

High Energy ◽

Intersystem Crossing ◽

Spectroscopic Techniques ◽

Triplet States ◽

Ambient Conditions ◽

Triplet Excited States ◽

Atom Effect

A new trinuclear mercury(ii) complex of 1,3,5-triethynylbenzene [(MeHgC≡C)3(1,3,5-C6H3)] 1 was prepared in good yield by Hagihara’s dehydrohalogenation reaction of HgMeCl with [(HC≡C)3(1,3,5-C6H3)] under ambient conditions. This trimercury triacetylide complex’s structure was confirmed by common spectroscopic techniques and its photophysical properties were examined and compared with the isolobal gold(i) congener [{(PPh3)AuC≡C}3(1,3,5-C6H3)] 2. Our investigations indicate that the organic triplet emissions can be harvested by the heavy-atom effect of mercury which enables efficient intersystem crossing from the S1 singlet excited state to the T1 triplet excited state. The influence of Hg and Au centres on the phosphorescence efficiency and evolution of the lowest electronic singlet and triplet excited states is critically characterized. Both complexes 1 and 2 possess high-energy triplet states of 2.77–2.82 eV, in which the order of intersystem crossing rate follows the order Au > Hg.

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