Photon-gated persistent spectral hole burning by donor-acceptor electron transfer in tetraphenylporphine/halogenated anthracene systems

Suzuki, H.; Shimada, Toshiyuki; Hiratsuka, Hiroaki

doi:10.1063/1.349058

Cited by 8 publications

(6 citation statements)

References 24 publications

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“…In contrast to the results in [1], and in correspondence with the observations in [2], the long living IS is not likely the triplet state of H 2 -TBNP, since in general phthalocyanines have a much shorter triplet state lifetime of the order of 1 ms [8]. An unusual feature of the observed gated holes is their small width of about 400 MHz, which is close to that for nongated materials, and about 10-20 times less than typically observed in other gated PSHB materials [1][2][3][4]. The reason for such narrow holes is likely related to a relatively low concentration of acceptor molecules 1-ClA of about 10 À4 mol/l due to the lesser influence of the electric field induced by D-A pair formation [1].…”

Section: Spectroscopy and Spectral Hole Burningcontrasting

confidence: 56%

“…Based on the results of the study of gated hole burning for porpyrins in the presence of halogenated aromatic compounds [1][2][3], we propose the following two-photon gating mechanism in our case. It involves the selective excitation by the l 1 -photon of H 2 -TBNP (donor, D); electron transfer reaction in the excited (likely triplet) states of donor to 1-ACl (acceptor, A) through the intermediate state (IS); and the induced l 2 -photon formation of a stable photo-product SP,…”

Section: Spectroscopy and Spectral Hole Burningmentioning

confidence: 99%

“…Many of these materials exhibit photon-gated two-photon PSHB mechanisms [1][2][3][4], which permit nondestructive one-photon readout. In addition, some of these systems have high hole burning efficiency and allow fast single shot hole burning in the nanosecond [1] and even the picosecond [3] time scale.…”

Section: Introductionmentioning

confidence: 99%

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Spectroscopy, persistent hole burning, and holographic applications of naphtophthalocyanine/haloanthracene systems

Pandher

Gorokhovsky

Liu

et al. 2002

Journal of Luminescence

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We report on the spectroscopic and hole burning properties of free-base naphtophthalocyanine with and without 1-chloranthracene in polymer host. These materials exhibit a strong 0-0 absorption band in the region 800 nm matching the wavelength range of most semiconductor and Ti:Sapphire lasers. The materials studied feature two persistent hole burning photochemical mechanisms, i.e. one-photon proton tautomerization, and two-photon-gated hole burning likely due to donor-acceptor electron transfer. The last mechanism includes the long living intermediate state. The hole width at 1.5 K is about 300-400 MHz depending on the hole burning conditions, while the inhomogeneous width is about 10 7 MHz. Holographic storage is an important potential application of these materials. We demonstrated 10 plane wave holograms angularly multiplexed at one frequency channel in a spectral hole burning medium. It was shown that the M=# is still a valid system metric and the measured M=# in one frequency channel is about 0.01. r

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Section: Spectroscopy and Spectral Hole Burningcontrasting

confidence: 56%

Section: Spectroscopy and Spectral Hole Burningmentioning

confidence: 99%

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Spectroscopy, persistent hole burning, and holographic applications of naphtophthalocyanine/haloanthracene systems

Pandher

Gorokhovsky

Liu

et al. 2002

Journal of Luminescence

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“…They discussed their result assuming the guest molecules are mainly located in the amorphous parts of the semicrystalline PE matrix, giving rise to a D-A average separation in PE shorter than in complete amorphous PMMA. 26 In our case, we understand the negative result in the PS host as a consequence of the non-polar character of polystyrene. Due to the weakness of the polarity of the PS host, the electron transfer can not be stabilized, even at the liquid helium temperature.…”

Section: Resultsmentioning

confidence: 57%

A New Persistent Photon‐Gated Spectral Hole‐Burning System:Zinc Tetraphenylporphyrin Linked to Polyvinylbenzylchloride‐Co‐Polystyrene

1996

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Two colour photon-gated persistent spectral hole-burning via donor-acceptor electron transfer is reported in systems where the donor: zinc tetraphenylporphyrin (ZnTPP) and the acceptor: vinylbenzylchloride where linked to a polystyrene chain. A spectral hole is observed when the sample is irradiated using a gating light in addition to the wavelength-selective light. No effect of the gating light has been observed for ZnTPP dispersed in polystyrene (PS) even with efficient acceptors. In contrast, the efficiency of hole formation under two colour excitation is four times larger than that under one colour excitation in ZnTPP-PBCS/PMMA and nearly two times larger in ZnTPP-PBCS/PS.

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“…As Inoue et al stated, the difference in the atomic radii (in particular, between the main elements of the alloy) should be greater than 12 %. In addition, the investigated alloy consists of more than three elements, which fulfils the second of the aforementioned bulk amorphous alloy criteria, published by Inoue et al It is well known that the addition of the element Cu hinders the growth of crystalline grains and therefore favours the creation of a nano-crystalline structure [15]. The elements Be and Cr were added in order to improve the mechanical properties and corrosion resistance.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the structure (XRD) and microstructure (TEM, SEM, AFM) of bulk amorphous and nanocrystalline alloys based on FeCoB

Gruszka

Nabiałek

Błoch

et al. 2015

International Journal of Materials Research

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Control of the formation process of amorphous materials, and the lowering of their internal energy as a result of atomic transition through subsequent potential barriers describing metastable states, represent direct factors in designing the functional properties of these modern materials. This paper presents the results of tests carried out on the group of four alloys: Fe 62-x Co 10 Y 8 Me x B 20 (where: Me = Cr, Be or Cu; x = 0 or 1), obtained by a suction-casting method. The bulk amorphous samples were obtained in the form of plates of thickness 0.5 mm. The structure and microstructure of the investigated plates, in the as-quenched and after-annealing states, were studied using: scanning and transmission electron microscopy, atomic force microscopy and X-ray diffractometry. Moreover, for heat-treated samples, Rietveld's analysis was performed. Additionally, the combination of microscopy and X-ray studies allowed for the observation of diffusion effects occurring in the material.

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Photon-gated persistent spectral hole burning by donor-acceptor electron transfer in tetraphenylporphine/halogenated anthracene systems

Cited by 8 publications

References 24 publications

Spectroscopy, persistent hole burning, and holographic applications of naphtophthalocyanine/haloanthracene systems

Spectroscopy, persistent hole burning, and holographic applications of naphtophthalocyanine/haloanthracene systems

A New Persistent Photon‐Gated Spectral Hole‐Burning System:Zinc Tetraphenylporphyrin Linked to Polyvinylbenzylchloride‐Co‐Polystyrene

Analysis of the structure (XRD) and microstructure (TEM, SEM, AFM) of bulk amorphous and nanocrystalline alloys based on FeCoB

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