Multifunctional applications enabled by tunable multi-emission and ultra-broadband VIS-NIR luminescence energy transfer in Sn/Mn-doped lead-free Zn-based metal halides.

Metal halides are widely applied in solid-state lighting (SSL), optoelectronic devices, information encryption, and near-infrared (NIR) detection due to their superior photoelectric properties and tunable emission. However, single-component phosphors that can be efficiently excited by light-emitting diode (LED) chips and cover both the visible (VIS) and NIR emission regions are still very rare. To address this issue, (TPA)ZnBr:Sn/Mn (TPA = [(CHCHCH)N]) phosphors were synthesized by using the solvent evaporation method.

Equol Alleviates the In Vitro Aging-Induced Disruption of Porcine Oocytes.

Oocyte quality is crucial for determining the subsequent embryo developmental capacity and reproductive outcomes. However, aging is detrimental to oocyte quality. Previous studies have demonstrated that soy isoflavones have positive effects on the reproductive performance of female pigs.

Single-cell RNA Sequencing Revealed the Immunophenotypic Features of Macrophages in Cardiac Transplants and Uncovered Lgals9 Promoted Their Polarization towards The M2b Subtype.

Macrophages play a crucial role in the immune response during allograft rejection in organ transplantation. Therefore, our study aimed to explore the genomic features of macrophages in mouse heart transplants and use single-cell RNA sequencing to investigate Galectin-9 (Gal-9, Lgals9), a lectin that can mediate the activation and differentiation of immune cells through ligand-receptor interactions, and the effects of its regulation in transplantation. We discovered a new subset of macrophages called "Myoz2+ macrophages", which specifically expressed genes related to myocardial contraction.

Single-Cell Analysis Integrated With Machine Learning Elucidates the Mechanisms of Nucleus Pulposus Cells Apoptosis in Intervertebral Disc Degeneration and Therapeutic Interventions.

Background: The molecular of intervertebral disc degeneration (IVDD) is still unclear. When it comes to treating decoction, traditional Chinese medicine is effective. In particular, the Duhuo (Radix Angelicae Biseratae) may be particularly helpful.

Comparison of the EQ-5D-3L and EQ-5D-5L instruments in patients undergoing unicompartmental knee arthroplasty.

Purpose: The purpose of this investigation is to assess and contrast the effectiveness of the two EuroQol five dimensions questionnaire (EQ-5D) versions-EQ-5D-3L and EQ-5D-5L-in assessing one-year quality of life outcomes for patients with knee osteoarthritis (KOA) undergoing unicompartmental knee arthroplasty (UKA).

Material And Method: From the medical records at the Honghui Hospital, Xi'an Jiaotong University, 402 individuals aged 50 and above, who were one-year post-operation, were selected to fill out survey questionnaires during their return hospital visits. Of these, 231 respondents (57.

Adjunctive Intermittent Theta-Burst Stimulation for Schizophrenia: A Systematic Review and Meta-analysis of Randomized Double-Blind Controlled Studies.

Objective: In order to determine whether intermittent theta-burst stimulation (iTBS) is a viable adjunct treatment for schizophrenia, a meta-analysis of double-blind, randomized clinical trials (RCTs) was performed.

Methods: Four independent researchers extracted and synthesized data from RCTs on adjunctive iTBS for patients suffering from schizophrenia. RevMan 5.

A comprehensive evaluation of the quality of Bu Shen Jian Gu oral liquid based on multi-indicator component quantification and chemical pattern recognition.

Bu Shen Jian Gu Oral Liquid (BSJG) is a hospital formulation commonly utilized in the treatment of fractures, joint dislocations, and rheumatoid arthritis. However, there has been no effective and straightforward method to comprehensively assess the quality of BSJG. In this experiment, a fingerprint of various batches of BSJG was established using high-performance liquid chromatography (HPLC).

Unveiling Doping Kinetics in Cu(I) Metal Halides for Customized Luminescent Performance.

Intentional doping plays a pivotal role in customizing metal halides' electronic and optical features. This work manipulates the incorporation and distribution of Mn in Cu(I) halide by controlling the elemental steps involved in the growth-doping kinetics as well as investigates the localized lattice and electronic structures in different doping configurations. Complementary experimental and theoretical results demonstrate that a uniform and relatively high Mn doping level can be achieved by a step-tailored strategy that encompasses reducing the growth rate of the halide matrix, enhancing the surface adsorption of Mn, and facilitating the incorporation of the dopants.

Prediction of heavy metal contamination in soil-groundwater systems at contaminated sites.

The diffusion of heavy metal pollutants in polluted industrial areas can cause severe environmental pollution in surrounding areas. However, the migration of pollutants into groundwater is a complex process that requires consideration of local geological and hydrological conditions, solute transport, and geochemistry factors to better predict the flow paths and plume dispersion of pollutants. This study is based on numerical models of Darcy's law and the Richards equation.

Pillar[n]arene-Based Supramolecular Nanodrug Delivery Systems for Cancer Therapy.

Macrocyclic supramolecular materials play an important role in encapsulating anticancer drugs to improve the anticancer efficiency and reduce the toxicity to normal tissues through host-guest interactions. Among them, pillar[n]arenes, as an emerging class of supramolecular macrocyclic compounds, have attracted increasing attention in drug delivery and drug-controlled release due to their high biocompatibility, excellent host-guest chemistry, and simplicity of modification. In this review, we summarize the research progress of pillar[n]arene-based supramolecular nanodrug delivery systems (SNDs) in recent years in the field of tumor therapy, including drug-controlled release, imaging diagnostics and therapeutic modalities.

Efficient recognition of Parkinson's disease mice on stepping characters with CNN.

Parkinson's disease (PD), as the second most prevalent neurodegenerative disorder worldwide, impacts the quality of life for over 12 million patients. This study aims to enhance the accuracy of early diagnosis of PD through non-invasive methods, with the goal of enabling earlier intervention in the disease process. To this end, we constructed an open-field environment using flexible sensors under dark conditions, conducting experiments on a mouse model of Parkinson's disease alongside a normal control group.

Valorizing Xanthoceras Sorbifolia Bunge seed coats: A novel lignin-based activated carbon for effective malachite green adsorption and wastewater treatment.

In order to increase the added value of Xanthoceras Sorbifolia Bunge (XSB) and to obtain green biomass activated carbon with abundant pores for efficient MG removal, this study was the first to prepare XSB-based high-performance activated carbon using KOH activation. Activated at temperatures between 600 and 800 °C, XSBAC-800 exhibited the highest specific surface area (1580 m/g) and pore volume (0.732 cm/g), leading to superior MG adsorption.

Knowledge, Attitude, and Practice Toward Liver Fibrosis/Cirrhosis and Traditional Chinese Medicine Treatment Among Medical Staff.

Rationale: Liver fibrosis is a critical stage in the progression from liver injury to cirrhosis or tumor formation. Traditional Chinese medicine (TCM) has shown certain effectiveness in treating liver fibrosis. However, there is currently a lack of knowledge, attitude, and practice (KAP) studies regarding this topic.

Bioengineered NanoAid synergistically targets inflammatory pro-tumor processes to advance glioblastoma chemotherapy.

Through transcriptomic analysis of patient-derived glioblastoma tissues, we identify an overactivation of inflammatory pathways that contribute to the development of a tumor-promoting microenvironment and therapeutic resistance. To address this critical mechanism, we present NanoAid, a biomimetic nanoplatform designed to target inflammatory pro-tumor processes to advance glioblastoma chemotherapy. NanoAid employs macrophage-membrane-liposome hybrids to optimize the delivery of COX-2 inhibitor parecoxib and paclitaxel.

Enhancing compatibility of polylactic acid and lignin through acetylation for improving controlled release of pesticide.

Background: Improving the compatibility between polylactic acid (PLA) and lignin is crucial for developing innovative PLA-based controlled release systems for pesticides. This study addresses the challenge of enhancing the compatibility of alkali lignin (AL) with PLA by acetylated lignin (ACL). The main aim is to synthesize and evaluate pesticide-loaded microspheres for controlled release performance using fluazinam (FZ) as the model pesticide.

Improved performances toward electrochemical carbon dioxide and oxygen reductions by iron-doped stannum nanoparticles.

The CO reduction reaction (CORR) and oxygen reduction reaction (ORR) show great promise for expanding the use of renewable energy sources and fostering carbon neutrality. Sn-based catalysts show CORR activity; however, they have been rarely reported in the ORR. Herein, we prepared a nitrogen-carbon structure loaded with Fe-doped Sn nanoparticles (Fe-Sn/NC), which has good ORR and CORR activity.

Possible brain regions involved in parturition in mice.

Parturition is a vital physiological process in the reproduction of female mammals, regulated by neurohumoral mechanisms coordinated by the central nervous system. The uterus is essential for this process; however, the neural pathways connecting the brain to the uterus remain poorly understood. In this study, we combined the pseudorabies virus (PRV) tracing tool with c-Fos immunofluorescence staining to identify brain regions that may regulate uterine muscle activity during parturition.

Enhanced Resistance to Pokkah Boeng Disease in Sugarcane Through Host-Induced Gene Silencing Targeting FsCYP51 in Fusarium sacchari.

Pokkah boeng disease (PBD), a common and highly destructive disease of sugarcane, is mainly caused by Fusarium sacchari. Breeding sugarcane resistant to PBD is challenging due to the limited availability of immune or highly resistant germplasm resources. Host-induced gene silencing (HIGS) based on RNA interference (RNAi) is a promising disease-control method that offers strong disease-targeting ability with low environmental impact.

Less Is More: Donor Engineering of a Stable Molecular Dye for Bioimaging in the NIR-IIb Window.

Fluorescence molecular imaging aims to enhance clarity in the region of interest, particularly in the near-infrared IIb window (NIR-IIb, 1500-1700 nm). To achieve this, we developed a novel small-molecule dye, named , based on classic cyanine dyes (heptamethine or pentamethine is essential for wavelengths beyond 1000 nm). By reducing excessive polymethine to a single methine and disrupting symmetry to form an asymmetric donor-π-acceptor (D-π-A) architecture, we enhanced the donor's electron-donating capability, yielding emission at 1088 nm.

Insights into nitrogen metabolism and humification process in aerobic composting facilitated by microbial inoculation.

To enhance the retention of compost nutrients, specifically in nitrogen metabolism and humification, compound microbial agents were added during the aerobic composting of bagasse pith and buffalo manure. The introduction of the microbial agent successfully colonized the mixture, boosted the degradation capacity of organic matter, and facilitated the formation of nitrogenous substances and humic substances (HSs). The incorporation of a composite microbial inoculum led to a substantial rise in total Kjeldahl nitrogen (TKN) by 62.

A novel and practical strategy for comprehensive differentiation and profiling of eight Curcumae varieties and their counterfeit from the Chinese market.

The Curcuma genus is extensively used in food, traditional medicine, and spice, however, nine closely related varieties are frequently misidentified, leading to mislabeling and adulteration. This study presents an innovative and practical strategy for precise differentiation of nine Curcumae varieties-eight authentic and one counterfeit. For the first time, comprehensive characterizations were conducted using LC-Orbitrap MS, and 702 non-volatiles were annotated, laying a groundwork for marker selection and identification.

First report of brown spot disease caused by on in Guangxi of China.

Disocatus ackermannii, commonly referred to as Orchid Cactus, is a striking succulent belonging to the Cactaceae family. Its unique appearance and captivating characteristics make it a sought-after addition to gardens and courtyards beautification. In June 2023, 20-30% of D.

Design and analysis of electromagnetic and mechanical structure of ultra-high-speed slotted solid rotor induction motor.

In this paper, a high speed slotted solid-rotor induction motor (SSRIM) with rated power of 15 kW and rated speed of 120krpm is studied, and its electromagnetic performance and rotor mechanical structure are optimized. First, according to the empirical formula of motor design, the volume size of the motor is determined. Then, by constructing a two-dimensional finite element model, the slot matching scheme and coil pitch are optimized, and the influence of different slot matching scheme and coil pitch on the output torque and harmonics of the motor is compared.

Exploring a new paradigm for serum-accessible component rules of natural medicines using machine learning and development and validation of a direct predictive model.

In the field of pharmaceutical research, Lipinski's Rule of Five (RO5) was once widely regarded as the prevailing standard for the development of novel drugs. Despite the fact that an increasing number of recently approved drugs no longer adhere to this rule, it continues to serve as a valuable guiding principle in the field of drug discovery. The present study aims to establish a set of rules specifically for the serum-accessible components of natural medicines.