Lattice Modulation on Singlet-Triplet Splitting of Silver Cluster Boosting Near-Unity Photoluminescence Quantum Yield.

Developing thermally activated delayed fluorescence (TADF)-active silver clusters with near-unity quantum efficiency is of practical importance in cutting-edge optoelectronic devices, but remains a tremendous challenge due to the difficulty of de novo synthesis and uncertainty of properties. Herein, we demonstrate a lattice modulation on parent TADF- active silver cluster, achieving TADF-driven photoluminescence quantum yield (PLQY) from 12 % to near-unity. Systematic experimental and calculated results reveal that the lattice modulation effectively lowers the singlet-triplet splitting (ΔE) from 718 to 549 cm, thereby facilitating thermally activated reverse intersystem crossing: T→S, leading to extremely efficient TADF by surpassing both phosphorescence and non-radiative decay, thus boosting the near-unity PLQY.

Atomically Precise Copper Nanoclusters for Highly Efficient Electroreduction of CO towards Hydrocarbons via Breaking the Coordination Symmetry of Cu Site.

We propose an effective highest occupied d-orbital modulation strategy engendered by breaking the coordination symmetry of sites in the atomically precise Cu nanocluster (NC) to switch the product of CO electroreduction from HCOOH/CO to higher-valued hydrocarbons. An atomically well-defined Cu NC with symmetry-broken Cu-S N active sites (named Cu (MBD) , MBD=2-mercaptobenzimidazole) was designed and synthesized by a judicious choice of ligand containing both S and N coordination atoms. Different from the previously reported high HCOOH selectivity of Cu NCs with Cu-S sites, the Cu (MBD) with Cu-S N coordination structure shows a high Faradaic efficiency toward hydrocarbons of 65.

Real-Time Fluorescent Monitoring of Kinetically Controlled Supramolecular Self-Assembly of Atom-Precise Cu Nanocluster.

Kinetically stable and long-lived intermediates are crucial in monitoring the progress and understanding of supramolecular self-assembly of diverse aggregated structures with collective functions. Herein, the complex dynamics of an atomically precise Cu nanocluster [Cu ( BuC H S) (PPh ) ] (Cu8a) is systematically investigated. Remarkably, by monitoring the aggregation-induced emission (AIE) and electron microscopy of the kinetically stable intermediates in real time, the directed self-assembly (DSA) process of Cu8a is deduced.

Self-assembly of an alkynylpyrene derivative for multi-responsive fluorescence behavior and photoswitching performance.

Highly emissive fluorophores based on polyaromatic hydrocarbons with tunable emission properties and aggregated structures play a very important role in relevant functional studies. In this study, a novel alkynylpyrene derivative 1 was synthesized, which exhibits unimolecular to excimer emission in methanol with an increasing concentration accompanied by the formation of nanovesicles via the π-π stacking, hydrogen bond and hydrophobic interaction. The self-assembly behavior as well as emission properties of 1 in aprotic polar solvents (ACN, acetone, DMF and DMSO) can also be adjusted by the volume fraction of the poor solvent H2O, which can induce 1 self-assembly to excimer state and could be applied in information transfer.

N/P-Dual-Doped Carbon-Coated NaV(PO)OF Microspheres as a High-Performance Cathode Material for Sodium-Ion Batteries.

NaV(PO)OF (NVPOF) is attracting great interest due to its large capacity and high working voltage. However, poor electronic conductivity limits the electrochemical performance of NVPOF. Herein, we fabricate N/P-dual-doped carbon-coated NVPOF microspheres (labeled as NVPOF@P/N/C) via a hydrothermal process followed by heat treatment.

[Effect of calcium on ion contents and expression of photosynthetic related genes in honeysuckle under salt stress].

Exogenous calcium can enhance the resistance of certain plants to abiotic stress. Research have demonstrated that exogenous calcium could enhances the resistance of honeysuckle under salt stress by promoting the transmission of photosynthetic electrons.The aim of this study was to investigate the effects of exogenous calcium on the contents of Na~+,K~+,Ca~(2+),Mg~(2+)and the expression of photosynthetic related genes Cab and rbc L.

[Vinegar processing attenuates toxicity on IEC-6 cells caused by chloroform extraction of Daphne genkwa].

To screen the toxic polar fractions of Daphne genkwa, compare the toxicity of D. genkwa on crypts epithelial cells IEC-6 before and after vinegar processing, and preliminarily investigate the mechanism of D. genkwa vinegar processing on toxicity reducing.

[Puerarin induces apoptosis in A549 cells].

Objective: To explore the effect of puerarin induced apoptosis in human non-small cell lung canner A549 cells and its possible mechanisms.

Methods: A549 cells were cultivated in vitro. When 80%~90% confluence was reached, they were treated with puerarin in different concentration (60、120、240 μg/ml).

[The expression and significance of CD151 in pituitary adenomas].

Objective: To investigate the expression and significance of CD151 in pituitary adenomas.

Methods: Thirty-six pituitary adenomas were collected immediately after surgery together with five normal pituitary tissue. Real time-PCR, Western blot and immunohistochemistry analysis were performed to detect the expression of CD151 mRNA and protein in thirty-six pituitary adenomases and five normal pituitary tissues.