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Back Cover: Synthesis of Tetrazino‐tetrazine 1,3,6,8‐Tetraoxide (TTTO) (Angew. Chem. Int. Ed. 38/2016) 
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Pablo Simón Marqués Bradley D. Frank Aleksandr Savateev Lukas Zeininger 《Advanced Optical Materials》2021,9(24):2101139
Efficiently harvesting and conveying photons to photocatalytic reaction centers is one of the great obstacles in photocatalysis. To address this challenge, a new approach is reported that is based on employing biphasic complex emulsions as droplet-based solar concentrators. Specifically, substrates and photocatalysts are compartmentalized into the confined space of Janus emulsion droplets comprised of a hydrocarbon partially encapsulated inside fluorocarbon oil with a large refractive index contrast. Optical confinement of the incident light due to total internal reflection at the concave internal interface of the biphasic emulsion droplets leads to a strong increase of the light intensity inside the reaction medium. In addition, the high gas solubility within the outer fluorocarbon phase promotes oxygen delivery in photocatalytic oxidation reactions. Both effects mutually contribute to a strong performance increase of a series of homogeneous and heterogeneous photocatalytic reactions even under diffuse sunlight conditions. 相似文献
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Irina A. Zhukova Aleksandr S. Stepanov Andrey V. Korsakov Shao-Yong Jiang 《Journal of Raman spectroscopy : JRS》2022,53(3):485-496
Among critical metals, rare-earth elements (REEs) are irreplaceable for their role in the high-tech industry. The REE deposits commonly host REEs in fine-grained mixtures of phosphate minerals characterized by the variable content of volatile components. However, identification of the volatile components may present challenges for laser-ablation inductively coupled plasma mass spectrometer (LA-ICP-MS) and electron microprobe (EPMA) techniques. Therefore, Raman spectroscopy was applied to laterite and carbonatite samples from the Mount Weld deposit, one of the major REE deposits in Western Australia. The hydrous REE phosphate, rhabdophane, can be confidently distinguished from monazite by the presence of peaks in the region 2800–3600 cm−1. The presence of peaks at 428, 448, 579, 589, and 605 cm−1 in the Raman spectra of apatite from carbonatite allows its identification as hydroxyfluorapatite with high concentrations of F and water, and negligible Cl, SO42−, and SiO42−. The Raman spectra and composition of silcrete and carbonatite apatite are similar; thus, silcrete apatite was identified as hydroxyfluorapatite as well. The content of CO32− in both types of apatite was negligible despite the crystallization from carbonatitic magma. The aluminophosphate florencite is characterized by the presence of PO43−-related peaks at 639, 1113, and 1609 cm−1 and H2O/OH-related bands in the 2750–3075 cm−1 and together with rhabdophane has been identified in fine-grained mineral mixtures. Our study demonstrates that combining Raman spectroscopy with compositional data is a powerful method for the characterization of phosphate minerals in REE deposits. 相似文献
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Aleksandr A. Lanin Artem S. Chebotarev Matvey S. Pochechuev Ilya V. Kelmanson Andrei B. Fedotov Vsevolod V. Belousov Aleksei M. Zheltikov 《Journal of Raman spectroscopy : JRS》2019,50(9):1296-1302
Within the past decade, nonlinear Raman microscopy has earned a well-deserved status of a gold-standard technology for chemically selective imaging. Even though second- and third-harmonic microscopy is much less demanding on a laser source and multifrequency beam arrangement, it is increasingly falling behind nonlinear Raman scattering as a method of bioimaging because it offers no mechanism whereby imaging could be made chemically specific. Here, we show, however, that such a mechanism does exist, helping harmonic-generation microscopy overcome its no-chemical-specificity handicap. We demonstrate that, with the laser wavelength tuned to a three-photon resonance with the Soret band of hemoglobin, third-harmonic generation provides a chemically specific method for a high-contrast imaging of red blood cells in a broad class of biological systems, including live brain. Moreover, third-harmonic generation imaging can be conveniently combined with second-harmonic microscopy on a compact laser platform, providing, as our experiments on rat brain show, a powerful resource for three-dimensional, cell-specific label-free deep-brain imaging. 相似文献
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Moeser B Janoschka A Wolny JA Paulsen H Filippov I Berry RE Zhang H Chumakov AI Walker FA Schünemann V 《Journal of the American Chemical Society》2012,134(9):4216-4228
In this work, we present a study of the influence of the protein matrix on its ability to tune the binding of small ligands such as NO, cyanide (CN(-)), and histamine to the ferric heme iron center in the NO-storage and -transport protein Nitrophorin 2 (NP2) from the salivary glands of the blood-sucking insect Rhodnius prolixus. Conventional M?ssbauer spectroscopy shows a diamagnetic ground state of the NP2-NO complex and Type I and II electronic ground states of the NP2-CN(-) and NP2-histamine complex, respectively. The change in the vibrational signature of the protein upon ligand binding has been monitored by Nuclear Inelastic Scattering (NIS), also called Nuclear Resonant Vibrational Spectroscopy (NRVS). The NIS data thus obtained have also been calculated by quantum mechanical (QM) density functional theory (DFT) coupled with molecular mechanics (MM) methods. The calculations presented here show that the heme ruffling in NP2 is a consequence of the interaction with the protein matrix. Structure optimizations of the heme and its ligands with DFT retain the characteristic saddling and ruffling only if the protein matrix is taken into account. Furthermore, simulations of the NIS data by QM/MM calculations suggest that the pH dependence of the binding of NO, but not of CN(-) and histamine, might be a consequence of the protonation state of the heme carboxyls. 相似文献
29.
Mesoporous silica nanoparticles in biomedical applications 总被引:1,自引:0,他引:1
This tutorial review provides an outlook on nanomaterials that are currently being used for theranostic purposes, with a special focus on mesoporous silica nanoparticle (MSNP) based materials. MSNPs with large surface area and pore volume can serve as efficient carriers for various therapeutic agents. The functionalization of MSNPs with molecular, supramolecular or polymer moieties, provides the material with great versatility while performing drug delivery tasks, which makes the delivery process highly controllable. This emerging area at the interface of chemistry and the life sciences offers a broad palette of opportunities for researchers with interests ranging from sol-gel science, the fabrication of nanomaterials, supramolecular chemistry, controllable drug delivery and targeted theranostics in biology and medicine. 相似文献
30.
Voronin AA Fedotov IV Doronina-Amitonova LV Ivashkina OI Zots MA Fedotov AB Anokhin KV Zheltikov AM 《Optics letters》2011,36(4):508-510
Light-assisted ionization accompanying coherent anti-Stokes Raman scattering (CARS) of ultrashort laser pulses in brain tissue is shown to manifest itself in a detectable blueshift of the anti-Stokes signal. This blueshift can serve as an indicator of ionization processes in CARS-based neuroimaging. 相似文献