Publications by authors named "Haoliang Liu"

What Is Already Known About This Topic?: Currently, there is no established scientific standard to guide disease control and prevention organizations in the selection of emergency response personnel. Given the growing risk of significant infectious disease outbreaks, it is imperative to develop an evaluation system for assessing emergency response capabilities.

What Is Added By This Report?: Drawing from competency theory, this study developed an assessment framework for evaluating the emergency response capabilities of staff at disease control and prevention institutions focused on major infectious diseases.

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  • Vein grafts are critical for treating coronary artery disease, but neointimal hyperplasia (NIH) poses a significant challenge to their long-term success, with current identification and intervention methods being insufficient.
  • Researchers conducted a study using rats to observe the NIH development process after vein grafting while examining gene expression and specific markers related to NIH through various analytical methods.
  • The results showed that repair cells from outside the graft contribute significantly to NIH, with the protein Fhl1 playing a protective role against inflammation and cell proliferation, offering potential targets for improved treatments.
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  • High-voltage sodium metal batteries (SMBs) are promising for high-energy-density applications due to the cost and abundance of sodium, but they face challenges like capacity decay from electrolyte decomposition and safety issues from reactive components.
  • A new dual-anion aggregated sodium solvation structure in a nonflammable electrolyte is proposed, forming a stable cathode/electrolyte interphase that reduces unwanted reactions and enhances stability and sodium transport.
  • The NaNiFeMnTiO//Na batteries using this electrolyte achieved a discharge capacity of 167.5 mAh/g with 85.2% capacity retention over 800 cycles, showcasing a potential strategy for safer, high-voltage SMBs.
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Searching for high energy-density electrode materials for sodium ion batteries has revealed Na-deficient intercalation compounds with lattice oxygen redox as promising high-capacity cathodes. However, anionic redox reactions commonly encountered poor electrochemical reversibility and unfavorable structural transformations during dynamic (de)sodiation processes. To address this issue, we employed lithium orbital hybridization chemistry to create Na-O-Li configuration in a prototype P2-layered NaLiMgCuMnO (P2-NaLMCM') cathode material.

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  • - Endothelial-to-mesenchymal transition (EndoMT) contributes to issues like neointimal hyperplasia and vein graft failure, with hnRNPA1 being a key regulator of this process.
  • - The study used a mouse model and in vitro methods to explore how EndoMT affects the behavior of vascular smooth muscle cells (VSMCs) and identified PDGF-B as a factor involved in this interaction.
  • - Overexpression of hnRNPA1 was found to inhibit EndoMT and reduce PDGF-B levels, ultimately preventing the activation of VSMCs and the formation of neointimal hyperplasia in vivo.
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The application of Li-S batteries on large scale is held back by the sluggish sulfur kinetics and low synthesis efficiency of sulfur host. In addition, the preparation of catalysts that promote polysulfide redox kinetics is complex and time-consuming, reducing the cost of raw materials in Li-S. Here, a universal synthetic strategy for rapid fabrication of sulfur cathode and metal compounds nanocatalysts is reported based on microwave heating of graphene.

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The presence of strong anharmonic effects in surface functionalized MXenes greatly challenges the use of harmonic lattice dynamics calculations to predict their phonon spectra and lattice thermal conductivity at finite temperatures. Herein, we demonstrate the workflow for training and validating machine learning potentials in terms of moment tensor potential (MTP) for MXenes including MoTiC, MoTiCO, MoTiCF and Janus-MoTiCOF monolayers. Then, the MTPs of MXenes are successfully combined with the harmonic lattice dynamics calculations to obtain the temperature renormalized phonon spectra, three-phonon scattering rates, phonon relaxation times and lattice thermal conductivity at finite temperatures.

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Coherent spin waves possess immense potential in wave-based information computation, storage, and transmission with high fidelity and ultra-low energy consumption. However, despite their seminal importance for magnonic devices, there is a paucity of both structural prototypes and theoretical frameworks that regulate the spin current transmission and magnon hybridization mediated by coherent spin waves. Here, we demonstrate reconfigurable coherent spin current transmission, as well as magnon-magnon coupling, in a hybrid ferrimagnetic heterostructure comprising epitaxial GdFeO and YFeO insulators.

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Dilute magnetic semiconductors (DMSs) have attracted much attention because of their potential use in spintronic devices. Here, we demonstrate the observation of robust ferromagnetism in a solution-processable halide perovskite semiconductor with dilute magnetic ions. By codoping of magnetic (Fe) and aliovalent (Bi) metal ions into CHNHPbCl (MAPbCl) perovskite, ferromagnetism with well-saturated magnetic hysteresis loops and a maximum coercivity field of 1280 Oe was observed below 12 K.

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What Is Already Known About This Topic?: Approximately 50% of patients with mpox are human immunodeficiency virus (HIV)-infected globally. Studies have shown that individuals with advanced HIV infection tend to have more severe clinical manifestations and higher mortality rates after mpox infection.

What Is Added By This Report?: The study revealed that individuals living with HIV have a low level of Knowledge, Attitude, and Practice (KAP) towards mpox.

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A negatively curved aza-nanographene (NG) containing two octagons was synthesized by a regioselective and stepwise cyclodehydrogenation procedure, in which a double aza[7]helicene was simultaneously formed as an intermediate. Their saddle-shaped structures with negative curvature were unambiguously confirmed by X-ray crystallography, thereby enabling the exploration of the structure-property relationship by photophysical, electrochemical and conformational studies. Moreover, the assembly of the octagon-embedded aza-NG with fullerenes was probed by fluorescence spectral titration, with record-high binding constants (K=9.

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Blood pressure dipping patterns have long been considered to be associated with adverse events. We aimed to investigate whether dipping patterns of postoperative MAP were related to 90-day and hospital mortality in patients undergoing CABG. Four thousand three hundred ninety-one patients were classified into extreme dippers (night-to-day ratio of MAP ≤ 0.

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The recent development of accurate and efficient semilocal density functionals on the third rung of Jacob's ladder of density functional theory, such as the revised regularized strongly constrained and appropriately normed (r2SCAN) density functional, could enable rapid and highly reliable prediction of the elasticity and temperature dependence of thermophysical parameters of refractory elements and their intermetallic compounds using the quasi-harmonic approximation (QHA). Here, we present a comparative evaluation of equilibrium cell volumes, cohesive energy, mechanical moduli, and thermophysical properties (Debye temperature and thermal expansion coefficient) for 22 transition metals using semilocal density functionals, including the local density approximation (LDA), Perdew-Burke-Ernzerhof (PBE) and PBEsol generalized gradient approximations (GGAs), and the r2SCAN meta-GGA. PBEsol and r2SCAN deliver the same level of accuracies for structural, mechanical, and thermophysical properties.

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First-principles calculations were performed to analyze the atomic structures and electrochemical energy storage properties of novel MoS⊥boridene heterostructures by anchoring MoS nanoflakes on MoB and MoBO monolayers. Both thermodynamic and thermal stabilities of each heterostructure were thoroughly evaluated from the obtained binding energies and through first-principles molecular dynamics simulations at room temperature, confirming the high formability of the heterostructures. The electrochemical properties of MoS⊥MoB and MoS⊥MoBO heterostructures were investigated for their potential use as anodes for alkaline metal ion batteries (Li, Na and K).

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  • The study investigates how right ventricular dysfunction (RVD) impacts the health outcomes and treatment decisions in patients with ischemic cardiomyopathy (ICM), particularly comparing coronary artery bypass grafting (CABG) and medical therapy.
  • Out of 1212 patients in the trial, those with RVD had a significantly higher risk of mortality—especially noted with moderate-to-severe RVD, which did not show extra survival benefits when treated with CABG over medical therapy.
  • The findings highlight that RVD is a key factor in poor prognosis for ICM patients, and regular assessments of RV function before and after treatment are crucial for better management.
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Growing concentration on the novel information processing technology and low-cost, flexible materials make the spintronics and organic materials appealing for the future interdisciplinary investigations. Organic spintronics, in this context, has arisen and witnessed great advances during the past two decades owing to the continuous innovative exploitation of the charge-contained spin polarized current. Albeit with such inspiring facts, charge-absent spin angular momentum flow, namely pure spin currents (PSCs) are less probed in organic functional solids.

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Multiferroic materials have great potential in non-volatile devices for low-power and ultra-high density information storage, owing to their unique characteristic of coexisting ferroelectric and ferromagnetic orders. The effective manipulation of their intrinsic anisotropy makes it promising to control multiple degrees of the storage "medium". Here, we have discovered intriguing in-plane electrical and magnetic anisotropies in van der Waals (vdW) multiferroic CuCrPS.

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Novel covalent organic frameworks (COFs) based PAN@TpBD(NH) electrospun composite nanofiber membranes (ECNMs) were fabricated as strong anion exchange sorbent by implementing electrospinning technology. The finished sorbent was characterized, and key parameters of pipette-tip solid phase extraction (PTSPE) procedures were investigated. Inorganic arsenic (iAs) was successfully separated from rice under the optimal precondition conditions, and quantified by hydride generation-atomic fluorescence spectrometry (HG-AFS).

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We conducted a comprehensive density functional theory investigation using the rSCAN-rVV10 functional on the structural stability and electrochemical properties of boridenes for their use as anode materials in rechargeable alkaline (earth) metal-ion batteries (Li, Na, K, Mg and Ca). According to first-principles molecular dynamics simulations and reaction thermodynamic calculations, MoB(OH) and MoBF are unstable in the presence of alkaline (earth) metal ions due to the surface-conversion reactions between the surface terminations and adsorbates. Meanwhile, the bare MoB and MoBO monolayers not only can accommodate alkaline (earth) metal ions, but also form stable multi-layer adsorption structures for most of the studied metal ions (Li, Na, K, Mg and Ca).

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We present the synthesis and characterization of the first triple oxa[6]helicene with symmetry. In contrast to the reported -symmetric triple oxa[7]helicene, the -symmetric analogue holds parallel electric and magnetic transition dipole moments and thus enhanced luminescence dissymmetry, shedding light on the critical role of molecular symmetry on chiroptical response.

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We present here the synthesis and in-depth physicochemical characterization of a double hetero[7]helicene fused with four triazole rings at both helical ends. The comparison of this triazole-fused double helicene with the previously reported all-carbon and thiadiazole-fused analogs revealed the huge impact of the embedded aromatic rings on the photophysical features. The small structural variation of the terminal rings from thiadiazole to triazole caused a dramatic change of the photoluminescence quantum yields (PLQYs) from <1 % to 96 %, while the replacement of the terminal benzene rings with triazole rings induced a tenfold enhancement of the circularly polarized luminescence dissymmetry factor.

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The development of helicenes with strong chiroptical response and controlled photophysics is highly desirable but challenging. In this work, double thia/sulfone[7]helicenes were synthesized to investigate the heteroatom effect on the photophysical and chiroptical properties of double heterohelicenes through comparison with the previously reported double oxa[7]helicene. By variation of the embedded heteroatoms from oxygen to sulfur, the absorption and emission were significantly red-shifted, along with the improved luminescence dissymmetry factor (g ).

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Spintronic devices based on spin orbit torque (SOT) have become the most promising pathway to the next-generation of ultralow-power nonvolatile logic and memory applications. Typical SOT-based spintronic devices consist of two functional materials: a spin source and a magnetic material. Spin source materials possess a strong spin orbit coupling, enabling efficient interconversion between charge and spin current.

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At high temperatures, the insulation performance of polypropylene (PP) decreases, making it challenging to meet the application requirements of metallized film capacitors. In this paper, the dielectric performance of PP is improved by long-chain branching modification and adding different kinds of nucleating agents. The added nucleating agents are organic phosphate nucleating agent (NA-21), sorbitol nucleating agent (DMDBS), rare earth nucleating agent (WBG-Ⅱ) and acylamino nucleating agent (TMB-5).

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