Notes

Lewis acid-catalyzed [3 + 2] annulations involving oxindole primarily based spirocyclic donor-acceptor cyclopropanes using ynamides.
The responsivity values obtained for UV, visible and NIR irradiation are 7.35 A W-1, 3.8 A W-1 and 0.18 A W-1 with very high EQE values of 2501.7%, 851.2% and 28.3%, respectively. The facile and cost-effective fabrication of the device with high performance provides a new approach for developing flexible electronics and high-performance optoelectronic devices.Ionic liquids are molten salts without an additional solvent and are discussed as innovative solvents and electrolytes in chemical processing and electrochemistry. A thorough microscopic understanding of the structure and ionic transport processes is essential for tailored applications. Here, we study the influence of "mild" nanoscopic confinement on the structure and diffusion properties of an ionic liquid, 1-ethyl-3-methylimidazolium acetate, using scattering techniques. The structure is analyzed by X-ray diffraction, while neutron backscattering spectroscopy is used for the study of the diffusion processes in these systems. Interpreting the diffusion processes in terms of a jump-diffusion model allowed us to deduce the confinement effects on the jump length and residence time, both increased at elevated temperatures in confinement. The applied "mild" confinement, which leaves room for 10-25 times the domain spacing, allows us to observe in great detail how the onset of domain distortion decelerates the dynamics.Two novel lead-based coordination polymers, namely [Pb(cbdcp)]·0.5H2O·0.5CH3OH (1) and [Pb(cbdcp)] (2), have been solvothermally constructed by using a zwitterionic ligand 4-carboxy-1-(3,4-dicarboxy-benzyl)-pyridinium chloride (abbreviated as H3cbdcpCl). Compound 1 has a three-dimensional framework displaying a valence-bonded SrAl2 topology with the 42·63·8 symbol, while compound 2 has a two-dimensional sheet structure that can be simplified into a three-dimensional ππ interaction-connected topology with the 44·62248·615·85 symbol. Notably, compound 1 proved to be a promising potential luminescent sensor capable of selectively detecting anions, cations and small organic molecules, especially Cr2O72-, CrO42-, Fe3+ and nitrobenzene.In this study, the blood pressure-lowering effects of Trichiurus lepturus myosin hydrolysate (TMH) and its possible mechanism were investigated in spontaneously hypertensive rats (SHRs). After gavage administration of TMH for 4 h, systolic blood pressure (SBP) was significantly decreased in SHRs. Furthermore, the SBP of SHRs remained low at 1 month after daily TMH treatment at 400 mg kg-1. Meanwhile, plasma levels of angiotensin II, bradykinin and nitric oxide in SHRs were ameliorated by TMH. Western blotting also suggested that TMH down-regulated the expression of ICAM-1 and VCAM-1, indicating a strong anti-inflammatory effect. Additionally, nitrotyrosine and collagen I were down-regulated, revealing a significant anti-oxidant effect of TMH. No obvious side effects or toxicity were observed in normal Wistar rats given TMH. Various pathogenic factors related to hypertension were improved by TMH, which may explain the underlying mechanism by which TMH synergistically reduces blood pressure.In bioconjugation chemistry, achieving a target-specific reaction for a non-modified amino acid is challenging. Here, we report a novel nucleobase-involved native chemical ligation (NbCL) that allows a site-specific oligonucleotide-peptide conjugation via a new S-N acyl transfer reaction between an oxanine nucleobase and N-terminal cysteine.Tuning the configuration of lanthanide-doped upconversion nanoparticles (UCNPs) has been proven to be an effective approach to enhance upconversion (UC) efficiency, especially for neodymium (Nd3+)-sensitized UCNPs. Rational configuration design can spatially separate activators and sensitizers, achieving the evolution from single core to multilayer structures. read more However, optimizing multiphoton UC emission via configuration modulation, especially in the ultraviolet range, is yet to be fully investigated. In this work, thickness tuning of the sensitizing layer containing Nd3+ ions and the inert layer containing gadolinium ions at a fixed combined thickness of 5 nm in tetralayer UCNPs to exclude the size effect is reported for the first time. The optimal thickness of sensitizing and inert layers was determined to be 3 and 2 nm respectively, showing a new strategy of balancing sensitization and surface passivation to enhance 4-photon (360 nm) emission. Although 3-photon emission (475 nm) is mainly influenced by the overall size, its emission intensity remains similar in all the tetralayer UCNPs. Additionally, an 808 nm cross-linked hydrogel has been demonstrated as a potential near-infrared activated tissue sealant. Our results have uncovered the structural parameters for optimal ultraviolet UC emissions and elucidated the strategic importance of nano-configuration design to minimize the energy loss in the high-photon UC process.A cobalt-catalyzed direct C-H/N-H functionalization of thiophene-2-carbohydrazides with maleimides by utilizing 2-(1-methylhydrazinyl)pyridine (MHP) as an easily removable bidentate directing group has been developed. This formal [4+2] cycloaddition has been achieved for the first time, and it provides an alternative and versatile approach to construct thiophene-fused pyridones using an inexpensive cobalt catalyst. The C-H/N-H activation cascade protocol showed a high efficiency and a broad substrate scope, and the products were obtained in good to excellent yields.In 2018, the two-dimensional (2D) PdSeO3 monolayer was predicted to be a highly promising photocatalyst for direct overall water splitting in the light of density functional theory (DFT) computations. Herein, we present the first report on the synthesis of 2D PdSeO3 nanosheets by using the quaternary ammonium intercalation-assisted electrochemical exfoliation method. The resulting atomically thin PdSeO3 nanosheets possess a moderate band gap with suitable band edge alignments for water splitting, and display excellent activity and stability in photocatalytic H2 evolution.We developed a host-guest ATP responsive strategy for efficient intracellular delivery of phosphopeptides, employing a pegylated arginine clustered calix[5]arene nanocarrier system that has great capability of recognizing the phosphate moieties on peptides and penetrating the cell membrane.
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