Two-Photon Absorbing Phosphorescent Metalloporphyrins: Effects of π-Extension and Peripheral Substitution

Esipova, Tatiana V.; Rivera-Jacquez, Héctor J.; Weber, Bruno; Masunov, Artëm E.; Vinogradov, Sergei A.

doi:10.1021/jacs.6b09157

Cited by 59 publications

(89 citation statements)

References 139 publications

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“…[47] for details). After normalization and correction (see SI for details), the plot of the integrated emission intensity vs excitation wavelength gave the relative 2PA absorption spectrum.…”

Section: Resultsmentioning

confidence: 99%

Bright Long-Lived Luminescence of Silicon Nanocrystals Sensitized by Two-Photon Absorbing Antenna

Ravotto

Chen

et al. 2017

Chem

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Summary Silicon nanocrystals of the average diameter of 5 nm, functionalized with 4,7-di(2-thienyl)-2,1,3-benzothiadiazole chromophores (TBT) and dodecyl chains, exhibit near-infrared emission upon one-photon (1P) excitation at 515 nm and two-photon (2P) excitation at 960 nm. By using TBT chromophores as an antenna we were able to enhance both 1P and 2P absorption cross-sections of the silicon nanocrystals to more efficiently excite their long-lived luminescence. These results chart a path to two-photon-excitable imaging probes with long-lived oxygen-independent luminescence - a rare combination of properties that should allow for a substantial increase in imaging contrast.

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Section: Resultsmentioning

confidence: 99%

Bright Long-Lived Luminescence of Silicon Nanocrystals Sensitized by Two-Photon Absorbing Antenna

Ravotto

Chen

et al. 2017

Chem

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“…This decay is shortened by the presence of oxygen and its half-life can be translated to pO 2 in absolute units. New phosphorescence probes were recently developed that can be two-photon excited (Esipova, Rivera-Jacquez, Weber, Masunov, & Vinogradov, 2016;Esipova & Vinogradov, 2014), which greatly widens the range of in vivo applications (Lecoq et al, 2011;Lyons, Parpaleix, Roche, & Charpak, 2016;Parpaleix, Goulam, & Charpak, 2013;Sakadzic et al, 2010;Sakadzic et al, 2011). Until recently, high resolution imaging was only possible in anesthetized animals.…”

Section: In Vivo Optical Imaging: From Autofluorescence To Geneticamentioning

confidence: 99%

Current technical approaches to brain energy metabolism

Barros

Bolaños

Bonvento

et al. 2017

Glia

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Neuroscience is a technology-driven discipline and brain energy metabolism is no exception. Once satisfied with mapping metabolic pathways at organ level, we are now looking to learn what it is exactly that metabolic enzymes and transporters do and when, where do they reside, how are they regulated, and how do they relate to the specific functions of neurons, glial cells, and their subcellular domains and organelles, in different areas of the brain. Moreover, we aim to quantify the fluxes of metabolites within and between cells. Energy metabolism is not just a necessity for proper cell function and viability but plays specific roles in higher brain functions such as memory processing and behavior, whose mechanisms need to be understood at all hierarchical levels, from isolated proteins to whole subjects, in both health and disease. To this aim, the field takes advantage of diverse disciplines including anatomy, histology, physiology, biochemistry, bioenergetics, cellular biology, molecular biology, developmental biology, neurology, and mathematical modeling. This article presents a well-referenced synopsis of the technical side of brain energy metabolism research. Detail and jargon are avoided whenever possible and emphasis is given to comparative strengths, limitations, and weaknesses, information that is often not available in regular articles.

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“…Organic ICT compounds are ideal candidates as third-order nonlinear optical materials because of their inherent high hyperpolarizabilities [35][36][37]. Among these molecules, the quadrupolar D-π-A-π-D structure is highlighted for its excellent nonlinear optical properties [38][39][40][41], with large twophoton absorption (TPA) cross-sections [42,43]. The intramolecular charge transfer, which occurs in systems containing both donor and acceptor parts, will influence the TPA properties strongly [44,45].…”

Section: Introductionmentioning

confidence: 99%

Solvent dependent linear and nonlinear optical properties of triphenylamine unit incorporated difluoroboron β-diketonate complexes

Zhou

Semin³

et al. 2019

Dyes and Pigments

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Two-Photon Absorbing Phosphorescent Metalloporphyrins: Effects of π-Extension and Peripheral Substitution

Cited by 59 publications

References 139 publications

Bright Long-Lived Luminescence of Silicon Nanocrystals Sensitized by Two-Photon Absorbing Antenna

Bright Long-Lived Luminescence of Silicon Nanocrystals Sensitized by Two-Photon Absorbing Antenna

Current technical approaches to brain energy metabolism

Solvent dependent linear and nonlinear optical properties of triphenylamine unit incorporated difluoroboron β-diketonate complexes

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