Effect of Axial Substitution on the Optical Limiting Properties of Indium Phthalocyanines

Shirk, James S.; Pong, Richard G. S.; Flom, Steven R.; Heckmann, Heino; Hanack, Michael

doi:10.1021/jp993254j

Cited by 287 publications

(219 citation statements)

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“…5,6 Among the large number of NLO absorbers that have been identified so far, phthalocyanines are especially attractive because of their great reverse saturable absorption (RSA) properties, and are still being investigated to improve their optical limiting properties and to expand their optical limiting window from the visible to the near IR range. 6,7,9 In this communication, we report on the synthesis and nonlinear optical (including optical limiting) properties of new axially aryloxy substituted and bridged gallium phthalocyanines. As a result, axial substitution and dimerization of the gallium phthalocyanine monomer resulted in significant reductions in the saturation energy density of the material displaying clear evidence of the usefulness of structurally modifying the gallium phthalocyanine unit.…”

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confidence: 99%

“…It also defocused the beam to its largest waist radius displaying its competitiveness as a potential optical limiter. Gallium and indium 6,7,9 phthalocyanines are amongst the most promising that have been investigated as limiters of intense light and the current series presents a selection of structural modifications useful for varying their nonlinear optical properties. Fig.…”

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New axially aryloxy substituted gallium phthalocyanines for nonlinear optics

et al. 2003

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The ability to control reductions in the saturation energy density is important from the point of view of realizing applications where one would require successive layers in the practical limiter to be fabricated from materials of decreasing saturation energy density. In this paper, two new axially aryloxy substituted gallium phthalocyanine compounds: tBu 4 PcGa(p-CPO) and [tBu 4 PcGa] 2 ?SDPO, have been prepared and structurally characterized. Their nonlinear optical (NLO) properties are described.It has long been recognized that intense laser beams can easily damage delicate optical instruments, especially the human eye, and consequently the field of optical limiting has invested much effort into the research of materials and processes in an attempt to afford some measure of protection from such beams. An efficient optical limiter will strongly attenuate intense, potentially dangerous optical beams, while exhibiting high transmittance for low-intensity ambient light. Many functional materials such as fullerenes, 1 carbon nanotubes, 2 polymer/ nanotube composites, 3 porphyrins, 4 and phthalocyanines (Pc's), 5 which process high dissipative extinction nonlinearity, fast response time, large dynamic range and broadband spectral response, have been widely studied with the view to realization of practical passive optical limiting applications. However, preparation of the required nonlinear optical active materials for practical optical limiters still presents a significant chemical challenge. 5,6 Among the large number of NLO absorbers that have been identified so far, phthalocyanines are especially attractive because of their great reverse saturable absorption (RSA) properties, and are still being investigated to improve their optical limiting properties and to expand their optical limiting window from the visible to the near IR range. 6,7,9 In this communication, we report on the synthesis and nonlinear optical (including optical limiting) properties of new axially aryloxy substituted and bridged gallium phthalocyanines. As a result, axial substitution and dimerization of the gallium phthalocyanine monomer resulted in significant reductions in the saturation energy density of the material displaying clear evidence of the usefulness of structurally modifying the gallium phthalocyanine unit. (1) 9a with p-chlorophenol and bis(4-hydroxyphenyl)sulfone, respectively, in anhydrous DMSO at 110 uC in the presence of K 2 CO 3 (see Scheme 1). Confirmation of the structures of compounds 2 and 3 was carried out by UV/Vis, FAB-MS, IR, 1 H-NMR, 13 C-NMR.{ As expected, the weak absorption band of the Ga-Cl stretching mode 9a at 351 cm 21 is absent in the IR spectra of both 2 and 3. Some new weak absorption peaks associated with the axial aryloxy ligands, for example, 503, 639, 1587, and 1665 cm 21 for 2; 634 cm 21 for 3, were observed. The molecular peak for 2 (m/z~934.4) was detected in the FAB-MS spectrum. The FAB-MS spectrum of 3 shows a number of fragment peaks. The UV/Vis spectra of 2 and 3 are almost identical. Unl...

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New axially aryloxy substituted gallium phthalocyanines for nonlinear optics

et al. 2003

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“…The origin of the nonlinear transmission in phthalocyanines is related mostly with the occurrence of the absorption of an excited state [27], and less preponderant, by the verification of nonlinear refraction [28]. The mechanism of nonlinear absorption in phthalocyanines is successfully interpreted in terms of the four-level model [29].…”

Section: Discussionmentioning

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“…At a certain point the irradiated molecule reaches a critical state of electronic polarization, which is capable to get in resonance at the wavelength of irradiation. Such a resonance of a highly polarized phthalocyanine molecule is believed to involve a MLCT/LMCT process which is red-shifted with respect to the same kind of transition in the ground state [28]. The deformability of the π-electrons cloud upon irradiation can be expressed as a generalized π-electrons…”

Section: Discussionmentioning

confidence: 99%

Conjugated Molecules for the Smart Filtering of Intense Radiations

Dini

2003

IJMS

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Abstract:The practical realization of smart optical filters, i.e. devices which change their optical transmission in a suitable way to keep a working state for a general light sensitive element , can involve the use of conjugated molecules whose light absorption properties are light-intensity dependent (nonlinear optical effect). The verification of optical limiting displayed by some particular conjugated molecules, e.g. phthalocyanines, is quite noteworthy and can be successfully exploited for the realization of such smart optical devices. In the present contribution the analysis of the relevant molecular feature of a phthalocyanine are analyzed with the aim of determining useful correlations between optical limiting performance and phthalocyanine chemical structure. In particular , the electronic nature of the substituent is considered as a key factor for the explanation of some observed optical limiting trends.

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“…3 Of the many candidate materials for these applications, porphyrins are among the most highly polarizable organic molecules reported to date, and because of their enhanced nonlinear susceptibilities, 4-9 they are promising molecules for optical limiters, [10][11][12][13][14] for photodynamic therapy, 15 and as contrast agents for in vivo imaging and microscopy. [16][17][18][19] Highly conjugated multiporphyrin chromophores possess large third-order nonlinear susceptibilities, ͑3͒ .…”

Section: Introductionmentioning

confidence: 99%

One- and two-photon absorption of highly conjugated multiporphyrin systems in the two-photon Soret transition region

Fisher

Susumu

Therien

et al. 2009

The Journal of Chemical Physics

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This study presents a detailed investigation of near-infrared one-and two-photon absorption ͑TPA͒ in a series of highly conjugated ͑porphinato͒zinc͑II͒ compounds. The chromophores interrogated include meso-to-meso ethyne-bridged ͑porphinato͒zinc͑II͒ oligomers ͑PZn n species͒, ͑porphinato͒zinc͑II͒-spacer-͑porphinato͒zinc͑II͒ ͑PZn-Sp-PZn͒ complexes, PZn n structures featuring terminal electron-releasing and -withdrawing substituents, related conjugated arrays in which electron-rich and -poor PZn units alternate, and benchmark PZn monomers. Broadband TPA cross-section measurements were performed ratiometrically using fluorescein as a reference. Superficially, the measurements indicate very large TPA cross-sections ͑up to ϳ10 4 GM; 1 GM =1ϫ 10 −50 cm 4 s photon −1 ͒ in the two-photon Soret ͑or B-band͒ resonance region. However, a more careful analysis of fluorescence as a function of incident photon flux suggests that significant one-photon absorption is present in the same spectral region for all compounds in the series. TPA cross-sections are extracted for the first time for some of these compounds using a model that includes both one-photon absorption and TPA contributions. Resultant TPA cross-sections are ϳ10 GM. The findings suggest that large TPA cross-sections reported in the Soret resonance region of similar compounds might contain significant contributions from one-photon absorption processes.

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Effect of Axial Substitution on the Optical Limiting Properties of Indium Phthalocyanines

Cited by 287 publications

References 52 publications

New axially aryloxy substituted gallium phthalocyanines for nonlinear optics

New axially aryloxy substituted gallium phthalocyanines for nonlinear optics

Conjugated Molecules for the Smart Filtering of Intense Radiations

One- and two-photon absorption of highly conjugated multiporphyrin systems in the two-photon Soret transition region

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