Publications by authors named "Junyu Ren"

Article Synopsis
  • Isoporous nanomaterials, especially covalent organic frameworks (COFs), are gaining attention for their ability to effectively separate molecules in sustainable membrane technologies.
  • The study presents a novel two-dimensional COF membrane that allows for high-selectivity sieving of complex ultrafine molecules through responsive structural changes when exposed to solvents.
  • This newly developed membrane features enhanced stability and improved molecular selectivity over traditional COFs, making it a promising candidate for applications in purifying valuable chemicals, including pharmaceuticals.
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We report the design and synthesis of the first aliphatic covalent organic framework (COF), NUS-119, and its subsequent conversion to NUS-120, marking the first fully saturated COF. NUS-119 is built by imine-linkages exhibiting high crystallinity and porosity, achieved by using a Lewis acid as a reaction modulator to circumvent compatibility issues between the Brønsted acid and the strong basic monomer. The structure was successfully solved using 3D microelectron diffraction (microED) techniques.

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Article Synopsis
  • The study highlights the first experimental use of covalent organic frameworks (COFs) for detecting sulfur dioxide (SO2), showcasing SonoCOF-9 as a promising material.
  • SonoCOF-9 achieved a reversible SO2 sorption capacity of 3.5 mmol g-1 at 1 bar and 298 K, with good performance over multiple cycles.
  • The research combines experimental findings with molecular simulations, indicating that SonoCOF-9 interacts strongly with SO2, making it suitable for detecting low concentrations of the gas (as low as 0.0064 ppm).
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Small cell lung cancer (SCLC) is an aggressive pulmonary neuroendocrine malignancy featured by cold tumor immune microenvironment (TIME), limited benefit from immunotherapy, and poor survival. The spatial heterogeneity of TIME significantly associated with anti-tumor immunity has not been systemically studied in SCLC. We performed ultra-high-plex Digital Spatial Profiling on 132 tissue microarray cores from 44 treatment-naive limited-stage SCLC tumors.

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Long-term in situ plasma membrane-targeted imaging is highly significant for investigating specific biological processes and functions, especially for the imaging and tracking of apoptosis processes of cells. However, currently developed membrane probes are rarely utilized to monitor the in situ damage of the plasma membrane. Herein, a transition-metal complex phosphorescent indicator, , effectively paired with cholesterol, exhibits excellent properties on staining the plasma membrane, with excellent antipermeability, good photostability, large Stokes shift, and long luminescence lifetime.

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Oral mucosal impairment is a prevalent oral disease that frequently causes pain for patients. Conventional treatments have limited effectiveness and can cause adverse reactions. Furthermore, the moist and dynamic nature of the oral mucosal environment makes persistent adherence of conventional materials challenging, which can affect treatment efficacy.

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Inflammatory bowel disease (IBD) is characterized by persistent damage to the intestinal barrier and excessive inflammation, leading to increased intestinal permeability. Current treatments of IBD primarily address inflammation, neglecting epithelial repair. Our previous study has reported the therapeutic potential of notoginsenoside R1 (NGR1), a characteristic saponin from the root of Panax notoginseng, in alleviating acute colitis by reducing mucosal inflammation.

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Epilepsy is a chronic neurological disorder characterized by recurrent seizures globally, imposing a substantial burden on patients and their families. The pathological role of peroxynitrite (ONOO), which can trigger oxidative stress, inflammation, and neuronal hyperexcitability, is critical in epilepsy. However, the development of reliable, in situ, and real-time optical imaging tools to detect ONOO in the brain encounters some challenges related to the depth of tissue penetration, background interference, optical bleaching, and spectral overlapping.

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Background: Researches have manifested that the disorder of iron metabolism is participated in Gastric cancer (GC), but whether iron metabolism-relevant genes (IMRGs) is related to the survival outcome of GC remain unknown.

Methods: Eleven tumor as well as nine adjacent normal tissues from GC patients were underwent mRNA sequencing, and the The Cancer Genome Atlas Stomach Cancer (TCGA-STAD) datasets were acquired from the TCGA database. Cox analyses and least absolute shrinkage and selection operator (LASSO) regression were applied to build a IMRGs signature.

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Owing to their intrinsic safety and sustainability, aqueous proton batteries have emerged as promising energy devices. Nevertheless, the corrosion or dissolution of electrode materials in acidic electrolytes must be addressed before practical applications. In this study, a cathode material based on a redox-active 2D covalent organic framework (TPAD-COF) with aniline-fused quinonoid units featuring inherently regular open porous channels and excellent stability is developed.

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The reprocessing of spent nuclear fuel is critical for the sustainability of the nuclear energy industry. However, several key separation processes present challenges in this regard, calling for continuous research into next-generation separation materials. Herein, we propose a high-throughput screening framework to improve efficiency in identifying potential ligands that selectively coordinate metal cations of interest in liquid wastes that considers multiple key chemical characteristics, including aqueous solubility, p, and coordination bond length.

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The interactions between adsorbed gas molecules within porous metal-organic frameworks are crucial to gas selectivity but remain poorly explored. Here, we report the modulation of packing geometries of CO and CH clusters within the ultramicroporous CUK-1 material as a function of temperature. In-situ synchrotron X-ray diffraction reveals a unique temperature-dependent reversal of CO and CH adsorption affinities on CUK-1, which is validated by gas sorption and dynamic breakthrough experiments, affording high-purity CH (99.

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Ratiometric luminescence probes have attracted widespread attention because of their self-calibration capability. However, some defects, such as small emission shift, severe spectral overlap and poor water solubility, limit their application in the field of biological imaging. In this study, a unique luminescence probe, Ru-COU, has been developed by combining tris(bipyridine)ruthenium(II) complex with coumarin derivative through a formaldehyde-responsive linker.

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Ethnopharmacological Relevance: Allium macrostemon Bunge (AMB), a widely distributed wild garlic plant, possesses a variety of health-promoting properties. Androgenetic alopecia (AGA) is a common disorder that affects quality of life.

Aim Of The Study: We sought to investigate whether AMB stimulates hair regrowth in AGA mouse model, and clarify the underlying molecular mechanisms.

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Background: Tongue squamous cell carcinoma (TSCC) is the most common oral cancer with a poor prognosis. At present, there is not any systematic study on autophagy-related long non-coding RNA (lncRNA) to predict the survival of patients with TSCC.

Material And Methods: In this research, the cohort of TSCC patients were obtained from The Cancer Genome Atlas (TCGA) database.

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We have developed a new 2D -MOF (Cu-TBC) coordination polymerization of a highly conjugated tribenzocoronene-type organic ligand (6OH-TBC) and Cu, which exhibits excellent stability and performance as the electrode for a supercapacitor.

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Radon and its progeny may cause severe health hazards, especially for people working in underground spaces. Therefore, in this study, a hybrid artificial intelligence machine learning-enabled framework is proposed for high-throughput screening of metal-organic frameworks (MOFs) as adsorbents for radon separation from indoor air. MOFs from a specific database were initially screened using a pore-limiting diameter filter.

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Bacterial infections of the wounds on the skin surface significantly reduce the rate of wound healing, potentially leading to serious systemic infections. Antibiotics are the first-line drugs for the treatment of these infections. However, the misuse and overuse of antibiotics have led to the emergence of bacterial resistance.

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Article Synopsis
  • Maxillofacial infections are challenging to treat due to their propensity to spread and the damaging effects of reactive oxygen species (ROS) on tissues, complicating recovery efforts.
  • A new drug delivery system, HMPB@Cur@PDA, leverages a nanoplatform responsive to the inflammatory environment, targeting ROS while delivering curcumin to promote healing through macrophage polarization.
  • Laboratory and animal studies indicate that this nanocomplex effectively reduces inflammation and enhances tissue repair in maxillofacial infections, highlighting its potential for improved therapeutic approaches.
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Silicon photonics is promising for artificial neural networks computing owing to its superior interconnect bandwidth, low energy consumption and scalable fabrication. However, the lack of silicon-integrated and monitorable optical neurons limits its revolution in large-scale artificial neural networks. Here, we highlight nonlinear germanium-silicon photodiodes to construct on-chip optical neurons and a self-monitored all-optical neural network.

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Brain low grade gliomas (LGG) often give serious clinical symptoms due to the invasion towards nervous system, affecting the life quality of patients. Collagen type I alpha 1(COL1A1) is the main component of type I collagen. Although there are many reports about abnormal expression of COL1A1 in various tumors, specific role and clinical significance of COL1A1 in LGG have not yet been elucidated.

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It is of practical interest to obtain polymers with complex material properties in a simplified synthetic manner for a broader range of practical applications. In this work, we constructed a dynamic reversible adhesive based on branched polyamine (PA) and -formylphenyl acrylate (FPA) by simultaneously performing Michael addition reaction and Schiff base reaction. Branched polyamines provide a large number of amino groups as reaction sites that can react with both carbon-carbon double bonds and aldehyde groups.

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Ratiometric luminescence (fluorescence/phosphorescence) probes have attracted widespread attention of researchers in the field of biological detection and noninvasive imaging of bioactive molecules in living systems. However, most of them suffer from some defects such as small emission shift, different excitation wavelength and spectral overlap, which eventually affect the luminescence ratio, thus leading to limitations in ratiometric bioimaging applications. In this paper, we present a novel "ruthenium(II) complex-fluorescein" scaffold probe (Ru-FL-ONOO) for ratiometric luminescence detection of peroxynitrite (ONOO), in which a Ru(II) complex was conjugated to fluorescein serving as the dual-emissive moiety and the spirocyclic structure of fluorescein-phenylhydrazine was used as the specifically-reactive moiety for recognizing ONOO.

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Background: Gastric cancer (GC) is one of the most common cancers in the digestive system. Circular RNAs (circRNAs) have been found to function as important regulators in the pathogenesis of GC. This study focused on the biological role and molecular mechanism of circ_0000620 in GC progression.

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