Publications by authors named "Haoze Li"

Article Synopsis
  • Blue perovskite light-emitting diodes (PeLEDs) face challenges due to difficult production of high-quality mixed-halide perovskites with wide optical bandgaps, leading to high defect density.
  • A new strategy for nondestructive in-situ halide exchange helps create high-quality blue perovskites with low trap density by using long alkyl chain chloride in chloroform post-treatment.
  • This method improves efficiency in PeLEDs across the blue spectrum, achieving external quantum efficiencies of 23.6% (sky-blue), 20.9% (pure-blue), and 15.0% (deep-blue) emissions.
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Damaged skin compromises its ability to effectively prevent the invasion of harmful bacteria into the tissue, leading to bacterial infection of the wound and hindering the healing process. To address this challenge, we have developed a multifunctional asymmetric wound dressing (CuPt-Cur-ABC) that effectively addresses the lack of bactericidal activity and the release of active ingredients in conventional bacterial cellulose (BC), which can be employed to create a barrier of defense between the wound and its surrounding environment. Compared with BC, asymmetric bacterial cellulose (ABC) used starch as a pore-causing agent, forming holes of different sizes at the top and bottom, which enhanced the ability of ABC to load and moderate-release drugs.

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Article Synopsis
  • MR-TADF materials are important for OLEDs because they provide high efficiency and color purity but face issues like emission quenching and spectral changes due to their planar structure.
  • New materials, SBNO and SBNOS, utilize a spiro-carbon bridge to reduce negative intermolecular interactions, resulting in less redshift and broadening in their emission spectra.
  • The enhanced design leads to pure green OLEDs with a CIE y of 0.69 and an impressive EQE of 32.7%, improving upon traditional BNO emitters that exhibit greater spectral shifts and lower efficiency.
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Degradation of polyolefin (PE) plastic by a traditional chemical method requires a high pressure and a high temperature but generates complex products. Here, sulfur vacancy-rich ZnInS and hydroxy-rich ZnInS were rationally fabricated to realize photocatalytic degradation of PE in an aqueous solution under mild conditions. The results reveal that the optimized photocatalyst could degrade PE into CO and CO, and PE had a weight loss of 84.

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Article Synopsis
  • Efficient and stable red perovskite light-emitting diodes (PeLEDs) show potential for high-definition displays and biomedical uses, but face issues with stability and efficiency for commercial viability.
  • A new crystallization regulation method using mixed vapors improves perovskite film quality, leading to better structural alignment and reduced surface defects.
  • The resulting red PeLEDs achieve impressive peak external quantum efficiencies (EQEs) of over 30% and longer operational lifetimes, marking significant progress towards their commercialization.
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In this paper, a smoothing approximation-based adaptive neurodynamic approach is proposed for a nonsmooth resource allocation problem (NRAP) with multiple constraints. The smoothing approximation method is combined with multi-agent systems to avoid the introduction of set-valued subgradient terms, thereby facilitating the practical implementation of the neurodynamic approach. In addition, using the adaptive penalty technique, private inequality constraints are processed, which eliminates the need for additional quantitative estimation of penalty parameters and significantly reduces the computational cost.

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Background: Information transmission between primary tumor cells and immunocytes or stromal cells in distal organs is a critical factor in the formation of pre-metastatic niche (PMN). Understanding this mechanism is essential for developing effective therapeutic strategy against tumor metastasis. Our study aims to prove the hypothesis that circ-0034880-enriched tumor-derived extracellular vesicles (TEVs) mediate the formation of PMN and colorectal cancer liver metastasis (CRLM), and targeting circ-0034880-enriched TEVs might be an effective therapeutic strategy against PMN formation and CRLM.

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Bioassay-guided fractionation of and root extracts afforded six compounds. Among these, two bioactive compounds ginsenoside Re () and (20)-ginsenoside Rg2 () exhibiting significant relaxation in rabbit corpus cavernosum with EC values of 95.1 and 114.

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Despite the rapid development of thermally activated delayed fluorescent (TADF) materials, developing organic light-emitting diodes (OLEDs) with small efficiency roll-off remains a formidable challenge. Herein, we have designed a TADF molecule (mClSFO) based on the spiro fluorene skeleton. The highly twisted structure and multiple charge-transfer channels effectively suppress aggregation-caused quenching (ACQ) and endow mClSFO with excellent exciton dynamic properties to reduce efficiency roll-off.

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Objective: To evaluate the anti-tumor effector of Liuwei Dihuang Decoction (LWDHD) in prostate cancer (PCa) and explore the potential mechanism using experimental validation, network pharmacology, bioinformatics analysis, and molecular docking.

Methods: CCK test, Clone formation assay and wound-healing assays were used to determine the effect of LWDHD on prostate cancer growth and metastasis. The active ingredients and targets of LWDHD were obtained from the TCMSP database, and the relevant targets were selected by GeneCards, OMIM and DisGeNET databases for PCa.

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Photodynamic therapy (PDT) emerges as a promising strategy for combating bacteria with minimal drug resistance. However, a significant hurdle lies in the ineffectiveness of most photosensitizers against Gram-negative bacteria, primarily attributable to their characteristic impermeable outer membrane (OM) barrier. To tackle this obstacle, we herein report an amphipathic peptide-photosensitizer conjugate (PPC) with intrinsic outer membrane disruption capability to enhance PDT efficiency against Gram-negative bacteria.

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The functionalization of aromatic N-heterocycles through silylium activation demonstrates exceptional selectivity and efficiency. Density functional theory (DFT) calculations unveil the detailed silylium catalysis mechanism and elucidate the origins of selectivity in this reaction. The phosphoramidimidate sulfonamide (PADI) precatalyst orchestrates of the catalytic cycle via three elementary steps.

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Currently, the clinical outcomes of peripheral nerve injuries are suboptimal, highlighting the urgent need to understand the mechanisms of nerve injury to enhance treatment strategies. Muscle-derived stem cells (MDSCs) are a diverse group of multipotent cells that hold promise for peripheral nerve regeneration due to their strong antioxidant and regenerative properties. Our research has revealed that severe ferroptosis occurs in the sciatic nerve and ipsilateral dorsal root ganglion following sciatic nerve injury.

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Article Synopsis
  • Intramolecular exciplex systems with thermally activated delayed fluorescence (TADF) are gaining popularity in OLED technology, but organic sandwich exciplexes are still rare due to structural and synthetic difficulties.
  • *The study introduces a new rigid donor-acceptor-donor (A-D-A) complex called dSFQP, which utilizes two sp C-locking moieties and shows promising TADF properties through an effective charge-transfer mechanism.
  • *OLEDs using dSFQP as a dopant achieved an impressive external quantum efficiency (EQE) of 28.5% and maintained high efficiency even at elevated brightness levels, signaling a significant advancement in organic charge-transfer complex design.
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Ethnopharmacological Relevance: Tumour-derived extracellular vesicles (TEVs) have been confirmed to facilitate colorectal cancer (CRC) metastasis by remodelling the tumour microenvironment (TME). Drugs targeted TEVs is considered as a promising therapeutic strategy for cancer treatment. Traditional Chinese medicine (TCM) plays a vital role in improving the prognosis of CRC patients and eventually CRC patients with distant metastasis.

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The enantioselective synthesis of S-stereogenic sulfinamides has garnered considerable attention due to their structural and physicochemical properties. However, catalytic asymmetric synthesis of sulfinamides still remains daunting challenges, impeding their broad application in drug discovery and development. Here, we present an approach for the synthesis of S-stereogenic sulfinamides through peptide-mimic phosphonium salt-catalyzed asymmetric skeletal reorganization of simple prochiral and/or racemic sulfoximines.

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Plastic pollution is an emerging global threat due to lack of effective methods for transforming waste plastics into useful resources. Here, we demonstrate a direct oxidative upcycling of polyethylene into high-value and high-volume saturated dicarboxylic acids in high carbon yield of 85.9 % in which the carbon yield of long chain dicarboxylic (C10-C20) acids can reach 58.

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Article Synopsis
  • The text discusses the use of carbon dioxide (CO) as a sustainable source for creating specific carboxylic acids through a new electrochemical reaction.
  • A nickel catalyst is employed to efficiently facilitate this process without needing moisture-sensitive chemicals, allowing for the formation of carbon-carbon (C-C) bonds.
  • This method has shown high efficacy, reaching up to 98% in terms of the purity of the desired product, and has been applied in the total synthesis of various complex organic molecules, highlighting its potential in sustainable chemistry.
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Here, we report a monomer planarity modulation strategy for room-temperature constructing molecularly imprinted-covalent organic frameworks (MI-COFs) for selective extraction of ochratoxin A (OTA). 2,4,6-triformylphloroglucinol (Tp) was used as basic building block, while three amino monomers with different planarity were employed as modulators to explore the effect of planarity on the selectivity of MI-COFs. The MI-TpTapa constructed from Tp and the lowest planarity of monomer Tapa gave the highest selectivity for OTA, and was further used as the adsorbent for dispersed-solid phase extraction (DSPE) of OTA in alcohol samples.

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Two yeast strains, designated as 19-39-3 and 19-40-2, obtained from the fruiting bodies of and collected in Yunwu Mountain Forest Park, PR China, have been identified as representing a novel asexual ascomycetous yeast species. From the results of phylogenetic analyses of the sequences of the D1/D2 domains of the large subunit (LSU) rRNA, small subunit (SSU) rRNA and translation elongation factor 1-α () genes, it was determined that these strains represent a member of the genus with and as the closest relatives. The novel species exhibited 6.

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Background: Recurrence and metastasis are the main causes of disease deterioration in colorectal cancer (CRC) patients, yet efficient therapeutic strategies are lacking. Natural compounds for efficient antitumour therapeutics are becoming increasingly prominent. Kaempferol, one of the main components of flavonoids in plants, displays a variety of pharmacological activities.

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Covalent organic frameworks (COFs) are attractive adsorbents for sample pretreatment due to their unique structure and properties. However, the selectivity of COFs for the extraction of hazardous compounds is still limited due to the lack of specific interactions between COFs and targets. Herein, we report a pore size adjustment strategy for room-temperature synthesis of molecularly imprinted COF (MICOF) for selective extraction of zearalenone (ZEN) in complex food samples.

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Article Synopsis
  • - Covalent organic frameworks (COFs) are being explored for their potential in phototherapy, but few can function sustainably without continuous light. - Researchers developed a new COF called Por-DPA, which combines porphyrin for photodynamic actions with anthracene that continuously releases singlet oxygen, allowing for effective sterilization even in the dark. - The Por-DPA COF shows promising results in killing bacteria and enhancing wound healing with minimal side effects, marking it as a novel and efficient antibacterial solution.
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Oxide-based memristors composed of Ag/porous SiO/Si stacks are fabricated using different etching time durations between 0 and 90 s, and the memristive properties are analyzed in the relative humidity (RH) range of 30-60%. The combination of humidity and porous structure provides binding sites to control silver filament formation with a confined nanoscale channel. The memristive properties of devices show high on/off ratios up to 10 and a dispersion coefficient of 0.

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Thermally activated delayed fluorescence (TADF) emitters based on multiple resonance (MR) effects are promising for high-definition organic light-emitting diodes (OLEDs) with narrowband emission and high efficiency. However, they still face the challenges of aggregation-caused quenching (ACQ) and spectral broadening. Solution-processable MR-TADF emitters with an external quantum efficiency (EQE) of >20% and a full width at half-maximum (fwhm) of <30 nm have rarely been reported.

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