Memristor chaotic systems have aroused great attention in recent years with their potentials expected in engineering applications.In this paper,a five-dimension(5D)double-memristor hyperchaotic system(DMHS)is modeled ...Memristor chaotic systems have aroused great attention in recent years with their potentials expected in engineering applications.In this paper,a five-dimension(5D)double-memristor hyperchaotic system(DMHS)is modeled by introducing two active magnetron memristor models into the Kolmogorov-type formula.The boundness condition of the proposed hyperchaotic system is proved.Coexisting bifurcation diagram and numerical verification explain the bistability.The rich dynamics of the system are demonstrated by the dynamic evolution map and the basin.The simulation results reveal the existence of transient hyperchaos and hidden extreme multistability in the presented DMHS.The NIST tests show that the generated signal sequence is highly random,which is feasible for encryption purposes.Furthermore,the system is implemented based on a FPGA experimental platform,which benefits the further applications of the proposed hyperchaos.展开更多
The utilization of thin plate systems based on acoustic vibration holds significant importance in micro-nano manipulation and the exploration of nonlinear science. This paper focuses on the analysis of an actual thin ...The utilization of thin plate systems based on acoustic vibration holds significant importance in micro-nano manipulation and the exploration of nonlinear science. This paper focuses on the analysis of an actual thin plate system driven by acoustic wave signals. By combining the mechanical analysis of thin plate microelements with the Bubnov–Galerkin integral method, the governing equation for the forced vibration of a square thin plate is derived. Notably,the reaction force of the thin plate vibration system is defined as f=α|w|, resembling Hooke’s law. The energy function and energy level curve of the system are also analyzed. Subsequently, the amplitude–frequency response function of the thin plate oscillator is solved using the harmonic balance method. Through numerical simulations, the amplitude–frequency curves are analyzed for different vibration modes under the influence of various parameters. Furthermore, the paper demonstrates the occurrence of conservative chaotic motions in the thin plate oscillator using theoretical and numerical methods. Dynamics maps illustrating the system’s states are presented to reveal the evolution laws of the system. By exploring the effects of force fields and system energy, the underlying mechanism of chaos is interpreted. Additionally, the phenomenon of chaos in the oscillator can be controlled through the method of velocity and displacement states feedback, which holds significance for engineering applications.展开更多
Yasunari Kawabata was a famous Japanese novelist and the winner of the 1968 Nobel Prize for Literature. However, considerable debate has persisted concerning the authorship of one of his novels, The Sound of the Mount...Yasunari Kawabata was a famous Japanese novelist and the winner of the 1968 Nobel Prize for Literature. However, considerable debate has persisted concerning the authorship of one of his novels, The Sound of the Mountain, with some claiming that it was in fact written by another celebrated author, Yukio Mishima. In this research, we attempt to resolve this issue by applying character bigrams, part-of-speech bigrams, and phrase patterns as stylometric features, and principal component analysis, hierarchical cluster analysis, and random forests as authorship attribution methods. As a result, we obtained compelling evidence to show that Yukio Mishima was not the author of The Sound of the Mountain.展开更多
Aramid papers (AP), made of aramid fibers, demonstrate superiority in electrical insulation applications. Unfortunately, the strength and electrical insulating properties of AP remain suboptimal, primarily due to the ...Aramid papers (AP), made of aramid fibers, demonstrate superiority in electrical insulation applications. Unfortunately, the strength and electrical insulating properties of AP remain suboptimal, primarily due to the smooth surface and chemical inertness of aramid fibers. Herein, AP are modified via the nacre-mimetic structure composed of aramid nanofibers (ANF) and carbonylated basalt nanosheets (CBSNs). This is achieved by impregnating AP into an ANF-CBSNs (A-C) suspension containing a 3D ANF framework as the matrix and 2D CBSNs as fillers. The resultant biomimetic composite papers (AP/A-C composite papers) exhibit a layered “brick-and-mortar” structure, demonstrating superior mechanical and electrical insulating properties. Notably, the tensile strength and breakdown strength of AP/A-C5 composite papers reach 39.69 MPa and 22.04 kV mm^(−1), respectively, representing a 155 % and 85 % increase compared to those of the control AP. These impressive properties are accompanied with excellent volume resistivity, exceptional dielectric properties, impressive folding endurance, outstanding heat insulation, and remarkable flame retardance. The nacre-inspired strategy offers an effective approach for producing highly promising electrical insulating papers for advanced electrical equipment.展开更多
For realizing the goals of“carbon peak”and“carbon neutrality”,lithium-ion batteries(LIB)with LiFePO_(4)as the cathode material have been widely applied.However,this has also led to a large number of spent lithium-...For realizing the goals of“carbon peak”and“carbon neutrality”,lithium-ion batteries(LIB)with LiFePO_(4)as the cathode material have been widely applied.However,this has also led to a large number of spent lithium-ion batteries,and the safe disposal of spent lithium-ion batteries is an urgent issue.Currently,the main reason for the capacity decay of LiFePO_(4)materials is the Li deficiency and the formation of the Fe^(3+)phase.In order to address this issue,we performed high-temperature calcination of the discarded lithium iron phosphate cathode material in a carbon dioxide environment to reduce or partially remove the carbon coating on its surface.Subsequently,mechanical grinding was conducted to ensure thorough mixing of the lithium source with the discarded lithium iron phosphate.The reaction between CO_(2)and the carbon coating produced a reducing atmosphere,reducing Fe^(3+)to Fe^(2+)and thereby reducing the content of Fe^(3+).The Fe^(3+)content in the repaired LiFePO_(4)material is reduced.The crystal structure of spent LiFePO_(4)cathode materials was repaired more completely compare with the traditional pretreatment method,and the repaired LiFePO_(4)material shows good electrochemical performance and cycling stability.Under 0.1 C conditions,the initial capacity can reach 149.1 m Ah/g.It can be reintroduced for commercial use.展开更多
The highly pathogenic influenza A virus subtype H5N1 spread throughout Asia since 2003, reached to Europe in 2005, and the Middle East, as well as Africa and caused a global concern for a potential pandemic threat las...The highly pathogenic influenza A virus subtype H5N1 spread throughout Asia since 2003, reached to Europe in 2005, and the Middle East, as well as Africa and caused a global concern for a potential pandemic threat last decade. A Clade 2.3.2 H5N1 virus became dominate in the Qinghai Lake region in 2009 with sporadic mammal cases of infection and transferred to Russia and Europe through wild migratory birds. Currently, HPAI H5N1 of clades 2.3.4, 2.3.2, and 7 are the dominant co-circulating H5N1 viruses in poultry in Asia. 2.3.2 Clade is dominant in wild birds through the world whereas there is no evident data about Clade 7 circulation in wild birds. We detected HPAI H5N1 virus of Clade 7.1 in Qinghai Lake, that closely related to Shanxi-like and Vietnam viruses co-circulating in poultry. This is the first report of Clade 7.1 H5N1 in wild birds. Based on phylogenetic analyses, the virus can be originated from Clade 7.1 virus gene pool that spread in Vietnam and Chinese poultry and could spread with migratory birds to Qinghai Lake. The Qinghai Lake continues to be significant hotspot for H5N1 surveillance since the regular outbreaks occurred there in wild birds and mammals. Based on these facts and findings, the related researchers should pay more attention to the Qinghai Lake basin as significant hotspot for H5N1 avian influenza surveillance since the regular H5N1 outbreaks occurred there in wild birds with sporadic mammal cases of infection.展开更多
The discovery of new superconducting materials,particularly those exhibiting high critical temperature(Tc),has been a vibrant area of study within the field of condensed matter physics.Conventional approaches primaril...The discovery of new superconducting materials,particularly those exhibiting high critical temperature(Tc),has been a vibrant area of study within the field of condensed matter physics.Conventional approaches primarily rely on physical intuition to search for potential superconductors within the existing databases.However,the known materials only scratch the surface of the extensive array of possibilities within the realm of materials.展开更多
Achieving vibration isolation,lightweight design,and reusability under impact remains a critical challenge for thin-walled structures.When the goat skull is subjected to impact,both the outer wall of the sinus and the...Achieving vibration isolation,lightweight design,and reusability under impact remains a critical challenge for thin-walled structures.When the goat skull is subjected to impact,both the outer wall of the sinus and the internal bony struts deform simultaneously to absorb energy and protect intracranial tissues.Inspired by this mechanism,we designed the goat sinus-inspired bio mimetic(GSIB) structure by mimicking the outer wall of the sinus and the internal pillar-like support system.The structure consists of dual coupling beams,including a set of inclined cantilever beams representing the sinus outer wall and vertical support beams simulating the internal bony struts.The GSIB structure was fabricated using Selective Laser Sintering(SLS) 3D printing technology,and its mechanical properties were investigated through a combination of quasi-static compression tests,vibration tests,impact tests,and finite element simulations.Under compressive loading,the inclined cantilever beams buckle to introduce a negative stiffness effect,while the vertical supports enhance overall stiffness.Leveraging the coupling effect between these two components,the structure achieves a long-stroke constant-force response,thereby delivering superior performance in energy absorption and vibration isolation.Additionally,the special deformation mode of the GSIB structure enables it to be reused under impact conditions.It is noteworthy that,compared to the negative stiffness(NS) structure with the same dimensions for repeated buffering proposed in previous studies,the GSIB structure demonstrates an energy absorption capacity reaching 214.3% of that of the NS structure,a reduction in isolation frequency to 58.5%,and an impact acceleration that is only 66.31% of that of the NS structure.Additionally,the plateau stress of the proposed structure increases to 246.07% of that of the NS structure.This novel artificial structure provides a new design strategy for achieving superior energy absorption and impact resistance under repeated impact conditions.展开更多
Background Unsedated colonoscopy is an important method used for diagnosing colorectal cancer,but it can cause discomfort such as pain and bloating,as well as anxiety.At present,the relief is mainly achieved through m...Background Unsedated colonoscopy is an important method used for diagnosing colorectal cancer,but it can cause discomfort such as pain and bloating,as well as anxiety.At present,the relief is mainly achieved through methods such as changing positions and manual pressing,but the efficacy is limited.Hence alternative therapies for sedation and analgesia in unsedated colonoscopy warrant further study.Electroacupuncture(EA)can simplify the procedure of anesthesia and analgesia,while the efficacy of EA on unsedated colonoscopy remains unclear.Therefore,a well-designed randomized controlled trial is needed to demonstrate the potential efficacy of acupuncture in unsedated colonoscopy,particularly for pain relief.Methods In this prospective randomized sham-controlled trial,105 eligible participants will be recruited and randomly assigned to either EA group(n=35),sham EA group(n=35),or control group(n=35)in a 1:1:1 ratio.The EA group will receive acupuncture intervention on bilateral Hegu(LI4),Neiguan(PC6),Zusanli(ST36),and Shenmen(HT7),with LI4 and PC6 on both sides connected to the EA device.The sham EA group will received non transdermal needling on points of no meridian,and deliberately connect the needle to the incorrect output socket of EA device to block the stimulation.The needling will conducted from 30 min before the unsedated colonoscopy to the end of the colonoscopy,the whole retention time would be approximately 40 min.The participants in the control group will not receive any acupuncture intervention.All participants of the three groups will not receive any other treatment.Primary outcomes:Numerical Rating Scale(NRS)reported by participants and Face Pain Scale Revised(FPS-R)evaluated by observers of four areas of the participants during the unsedated colonoscopy.Secondary outcomes:tolerance reported by endoscopists,tolerance reported by participants,satisfaction reported by endoscopists,satisfaction reported by participants,adverse events during the unsedated colonoscopy,postoperative discomfort,unsedated colonoscopy smoothness(cecal insertion time,unwinding time,success rate of one-time intubation).Both intention-to-treat(ITT)and per-protocol(PP)analyses will be performed to assess the efficacy of EA.Discussion The trial will explore the efficacy of relieving pain,improving tolerability,and reducing undesirable adverse events of EA for unsedated colonoscopy.The results of this trial will provide sound evidence for promoting the clinical application of EA for unsedated colonoscopy.Trial registration ClinicalTrials.gov Identifier:ChiCTR2300069903,retrospectively registered on March 16,2023.展开更多
Accurately identifying crop pests and diseases ensures agricultural productivity and safety.Although current YOLO-based detection models offer real-time capabilities,their conventional convolutional layers involve hig...Accurately identifying crop pests and diseases ensures agricultural productivity and safety.Although current YOLO-based detection models offer real-time capabilities,their conventional convolutional layers involve high computational redundancy and a fixed receptive field,making it challenging to capture local details and global semantics in complex scenarios simultaneously.This leads to significant issues like missed detections of small targets and heightened sensitivity to background interference.To address these challenges,this paper proposes a lightweight adaptive detection network—StarSpark-AdaptiveNet(SSANet),which optimizes features through a dual-module collaborative mechanism.Specifically,the StarNet module utilizes Depthwise separable convolutions(DW-Conv)and dynamic star operations to establish multi-stage feature extraction pathways,enhancing local detail perception within a lightweight framework.Moreover,the Multi-scale Adaptive Spatial Attention Gate(MASAG)module integrates cross-layer feature fusion and dynamic weight allocation to capture multi-scale global contextual information,effectively suppressing background noise.These modules jointly form a“local enhancement-global calibration”bidirectional optimization mechanism,significantly improving the model’s adaptability to complex disease patterns.Furthermore,the proposed Scale-based Dynamic Loss(SD Loss)dynamically adjusts the weight of scale and localization losses,improving regression stability and localization accuracy,especially for small targets.Experiments on the eggplant fruit disease dataset demonstrate that SSANet achieves an mAP50 of 83.9%and a detection speed of 273.5 FPS with only 2.11 M parameters and 5.1 GFLOPs computational cost,outperforming the baseline YOLO11 model by reducing parameters by 18.1%,increasing mAP50 by 1.3%,and improving inference speed by 9.1%.Ablation studies further confirm the effectiveness and complementarity of the modules.SSANet offers a high-accuracy,low-cost solution suitable for real-time pest and disease detection in crops,facilitating edge device deployment and promoting precision agriculture.展开更多
BACKGROUND Colorectal cancer(CRC)is a leading cause of cancer-related morbidity and mor-tality globally.Exosomal microRNAs(miRNAs)are known to modulate tumor progression by influencing immune responses and vascular dy...BACKGROUND Colorectal cancer(CRC)is a leading cause of cancer-related morbidity and mor-tality globally.Exosomal microRNAs(miRNAs)are known to modulate tumor progression by influencing immune responses and vascular dynamics.However,the roles of specific exosomal miRNAs,such as miR-425-5p and miR-135b-3p,in CRC remain unclear.AIM To explore the specific roles and underlying mechanisms of exosomal miR-425-5p and miR-135b-3p in CRC progression.METHODS Differentially expressed miRNAs were identified through microarray analysis of exosomes isolated from CRC tissues and adjacent normal mucosa.Functional roles of miR-425-5p and miR-135b-3p were evaluated in vitro using macrophage polarization,T cell differentiation,and vascular permeability assays,as well as in vivo tumor formation and metastasis experiments in nude mice.Validation expe-riments were performed using CRC cell lines(HCT116 and SW620).RESULTS Exosomal miR-425-5p and miR-135b-3p were significantly upregulated in CRC compared to normal tissues.Functional studies revealed that miR-425-5p promo-tes macrophage M2-like polarization and suppresses T cell proinflammatory responses,while miR-135b-3p enhances vascular permeability and angiogenesis.Inhibition of these miRNAs in CRC cell-derived exosomes significantly supp-ressed tumor growth and metastasis in nude mice,reprogramming the tumor microenvironment toward reduced angiogenesis and enhanced immune acti-vation.Combined inhibition of both miRNAs resulted in the most pronounced effects.CONCLUSION Exosomal miR-425-5p and miR-135b-3p drive CRC progression by promoting immune suppression and vascular permeability.Their inhibition offers a promising strategy for modulating the tumor microenvironment and limiting CRC metastasis.展开更多
Gait coordination in lower limbs plays a critical role in maintaining stability of the human body during walking.For transfemoral amputees,the absence of limbs disrupts this coordination,reducing prosthesis control ac...Gait coordination in lower limbs plays a critical role in maintaining stability of the human body during walking.For transfemoral amputees,the absence of limbs disrupts this coordination,reducing prosthesis control accuracy.Hip-knee coordination mapping offers a feasible solution for lower-limb prosthesis control,involving the generation of a reference trajectory for the knee joint by leveraging information from the hip.However,current reference trajectories are usually derived from static models,which cannot generate reference trajectories robustly when dealing with perturbations.Therefore,this paper introduces a time-dependent model based on the Delayed Feedback Reservoir(DFR)for hip-knee coordination in lower-limb prosthetic control.Experimental results show that DFR outperforms classical gait planning approaches when facing perturbations,achieving a 20%lower Root Mean Square Error(RMSE)and reducing residuals by up to 18.14 degrees.This research contributes to understanding gait mapping approaches and emphasizes the potential of time-dependent models for robust and strong lower-limb prosthetic control.The discovery provides a novel way to enhance the perturbation adaptability of prosthetic control.展开更多
Supramolecular prodrug vesicles(H-4⊃B-2@MB)with selective antibacterial activity have been successfully constructed.Specifically,a natural antibiotic prodrug(B-2)with glutathione(GSH)-responsiveness was synthesized.Th...Supramolecular prodrug vesicles(H-4⊃B-2@MB)with selective antibacterial activity have been successfully constructed.Specifically,a natural antibiotic prodrug(B-2)with glutathione(GSH)-responsiveness was synthesized.The hydrophobic interaction between B-2 and a novel water-soluble cavitand with deep cavity(H-4)resulted in the formation of a host-vip complex,which further self-assembled into supramolecular vesicles.The formed vesicles could effectively encapsulate the photosensitizer methylene blue(MB),enabling co-delivery of antibiotics and photosensitizers in the presence of GSH.Moreover,upon excitation at 630 nm,the photosensitizers generate reactive oxygen species(ROS),effectively eradicating E.coli through combined chemo-photodynamic therapy.Considering that GSH is predominantly present in Gram-negative bacteria such as E.coli,this strategy exhibits substantial potential for selectively inhibiting bacteria characterized by high GSH levels to regulate bacterial colony equilibrium.展开更多
BACKGROUND Despite improved survival rates in rectal cancer treatment,many patients experience low anterior resection syndrome(LARS).The preoperative LARS score(POLARS)aims to address the limitations of LARS assessmen...BACKGROUND Despite improved survival rates in rectal cancer treatment,many patients experience low anterior resection syndrome(LARS).The preoperative LARS score(POLARS)aims to address the limitations of LARS assessment by predicting outcomes preoperatively to enhance surgical planning.AIM To investigate the predictive accuracy of POLARS in assessing the occurrence of LARS.METHODS This study enrolled a total of 335 patients who underwent laparoscopic or robotic low anal sphincter-preserving surgery for rectal tumors.Patients were categorized into three groups according to their POLARS score:no LARS(score 0-20),minor LARS(score 21-29),and major LARS(score 30-42).The QLQ-C30/CR29 scores were compared among these groups,and the agreement between POLARS predictions and the actual LARS scores was analyzed.RESULTS The study population was divided into three groups:major LARS(n=51,27.42%),minor LARS(n=109,58.6%),and no LARS(n=26,13.98%).Significant differences in the QLQ-C30 scales of social function,diarrhea,and financial impact were detected between the no LARS and major LARS groups(P<0.05)and between the minor LARS and major LARS groups(P<0.05).Similarly,significant differences were detected in the QLQ-CR29 scales for blood and mucus in the stool,fecal incontinence,and stool frequency between the no LARS and minor LARS groups(P<0.05),as well as between the minor LARS and major LARS groups(P<0.05).The predictive precision for major LARS using the POLARS score was 82.35%(42/51),with a recall of 35.89%(42/117).The mean absolute error(MAE)between the POLARS score and the actual LARS score was 8.92±5.47.In contrast,the XGBoost(extreme gradient boosting)model achieved a lower MAE of 6.29±4.77,with a precision of 84.39%and a recall of 74.05%for predicting major LARS.CONCLUSION The POLARS score demonstrated effectiveness and precision in predicting major LARS,thereby providing valuable insights into postoperative symptoms and patient quality of life.However,the XGBoost model exhibited superior performance with a lower MAE and higher recall for predicting major LARS compared to the POLARS model.展开更多
Jellyfish outbreaks are severely exacerbated by coastal eutrophication,overfishing,and aquaculture.Jellyfish proliferation has been shown closely connected with larval populations during the early stages of their life...Jellyfish outbreaks are severely exacerbated by coastal eutrophication,overfishing,and aquaculture.Jellyfish proliferation has been shown closely connected with larval populations during the early stages of their life cycle.However,the factors affecting larval populations have not been fully explored.The changes in metabolites during the transition from planula larvae to polyps were analyzed using ultra-performance liquid chromatography coupled with a mass spectrometer.In jellyfish planula larvae and polyps,lipids and lipid-like molecules are the most abundant metabolites,followed by organic acids and their derivatives,organic heterocyclic compounds,and organic oxygen compounds.In comparison with planula larvae,13 metabolites were significantly increased while 212 were significantly decreased.Most of these metabolites are involved in lipid metabolism,amino acids metabolism,and nucleotide metabolism.Furthermore,during the jellyfish planula larvae metamorphosis and settlement,five differentially expressed metabolites were identified as candidate metabolites that facilitate larvae attachment and metamorphosis,including glycerol lactate pyruvate,N-stearoyl asparagine,4-methyl-umbelliferyl-N-acetyl-chitobiose,levetiracetam,and 4-amino-1-[(2 R,5 R)-5-(hydroxymethyl)-4-sulfanyloxolan-2-yl]pyrimidin-2-one.This study identified the metabolites and helped understand the metabolic mechanisms underlying the attachment and metamorphosis of jellyfish larvae,which expands our knowledge of jellyfish blooming at the early life stage.展开更多
Although lightweight aramid paper honeycombs are highly desirable for microwave absorption owing to their dual functions of both load-bearing and microwave-absorbing,unsatisfactory microwave absorption,inferior mechan...Although lightweight aramid paper honeycombs are highly desirable for microwave absorption owing to their dual functions of both load-bearing and microwave-absorbing,unsatisfactory microwave absorption,inferior mechanical and inadequate thermal properties present significant challenges for practical applications in diverse complex scenarios.Herein,lightweight,high-strength and flame-retardant aramid nanofibers-based honeycombs(MANHs)for integrated microwave absorption and thermal insulation are successfully fabricated via the hydrogen bonding assembly,mold forming and aerogel filling strategy using aramid waste as raw material.The dense network structure formed by the interwoven aramid nanofibers(ANFs)in the honeycomb body acts as a framework endows the MANH with impressive mechanical performance,and the specific strength and toughness of MANH reach 153.6 MPa g^(−1) cm^(−3) and 13.9 MJ m^(−3),respectively,which are 3.5 and 19 times higher than those of commercial microwave absorption honeycombs(CMAH).The ultralight MXene/ANFs aerogels(a density of 25 mg cm^(−3))with multiscale pore structure filled in the honeycomb apertures give the honeycomb outstanding microwave absorption performance,with a minimum reflection loss of−62.5 dB,and can cover the entire X-band with a thickness of only 3.5 mm.Meanwhile,compared with CMAH,the thermal insulation and flame-retardant performance of MANH are also significantly improved.Notably,MANH also demonstrates favorable sound absorption performance at high-frequency bands.The MANH is considered to be a promising candidate for aerospace and military stealth applications as a result of its lightweight,high strength,exceptional microwave absorption,and remarkable thermal insulation performance.展开更多
CO_(2) conversion to CO via the reverse water-gas shift(RWGS)reaction is limited by a low CO_(2) conversion rate and CO selectivity.Herein,an efficient RWGS catalyst is constructed through Enteromorpha prolifera–deri...CO_(2) conversion to CO via the reverse water-gas shift(RWGS)reaction is limited by a low CO_(2) conversion rate and CO selectivity.Herein,an efficient RWGS catalyst is constructed through Enteromorpha prolifera–derived N-rich mesoporous biochar(EPBC)supported atomic-level Cu-Mo_(2)C clusters(Cu-Mo_(2)C/EPBC).Unlike traditional acti-vated carbon(AC)supported Cu-Mo_(2)C particles(Cu-Mo_(2)C/AC),the Cu-Mo_(2)C/EPBC not only presents the better graphitization degree and larger specific surface area,but also uniformly andfirmly anchors atomic-level Cu-Mo_(2)C clusters due to the existence of pyridine nitrogen.Furthermore,the pyridine N of Cu-Mo_(2)C/EPBC strengthens an unblocked electron transfer between Mo_(2)C and Cu clusters,as verified by X-ray absorption spectroscopy.As a result,the synergistic effect between pyridinic N anchoring and the clusters interaction in Cu-Mo_(2)C/EPBC facilitates an improved CO selectivity of 99.95%at 500℃ compared with traditional Cu-Mo_(2)C/AC(99.60%),as well as about 3-fold CO_(2) conversion rate.Density functional theory calculations confirm that pyr-idine N-modified carbon activates the local electronic redistribution at Cu-Mo_(2)C clusters,which contributes to the decreased energy barrier of the transition state of CO^(*)+O^(*)+2H^(*),thereby triggering the transformation of rate-limited step during the redox pathway.This biomass-derived strategy opens perspective on producing sustain-able fuels and building blocks through the RWGS reaction.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant Nos.62003177,61973172,61973175,and 62073177)the key Technologies Research and Tianjin Natural Science Foundation (Grant No.19JCZDJC32800)+1 种基金China Postdoctoral Science Foundation (Grant Nos.2020M670633 and 2020M670045)Academy of Finland (Grant No.315660)。
文摘Memristor chaotic systems have aroused great attention in recent years with their potentials expected in engineering applications.In this paper,a five-dimension(5D)double-memristor hyperchaotic system(DMHS)is modeled by introducing two active magnetron memristor models into the Kolmogorov-type formula.The boundness condition of the proposed hyperchaotic system is proved.Coexisting bifurcation diagram and numerical verification explain the bistability.The rich dynamics of the system are demonstrated by the dynamic evolution map and the basin.The simulation results reveal the existence of transient hyperchaos and hidden extreme multistability in the presented DMHS.The NIST tests show that the generated signal sequence is highly random,which is feasible for encryption purposes.Furthermore,the system is implemented based on a FPGA experimental platform,which benefits the further applications of the proposed hyperchaos.
基金Project supported by the National Natural Science Foundation of China (Grant Nos. 61973172, 62003177, 62103204, 62003175, and 61973175)the Joint Fund of the Ministry of Education for Equipment Pre-research (Grant No. 8091B022133)General Terminal IC Interdisciplinary Science Center of Nankai University。
文摘The utilization of thin plate systems based on acoustic vibration holds significant importance in micro-nano manipulation and the exploration of nonlinear science. This paper focuses on the analysis of an actual thin plate system driven by acoustic wave signals. By combining the mechanical analysis of thin plate microelements with the Bubnov–Galerkin integral method, the governing equation for the forced vibration of a square thin plate is derived. Notably,the reaction force of the thin plate vibration system is defined as f=α|w|, resembling Hooke’s law. The energy function and energy level curve of the system are also analyzed. Subsequently, the amplitude–frequency response function of the thin plate oscillator is solved using the harmonic balance method. Through numerical simulations, the amplitude–frequency curves are analyzed for different vibration modes under the influence of various parameters. Furthermore, the paper demonstrates the occurrence of conservative chaotic motions in the thin plate oscillator using theoretical and numerical methods. Dynamics maps illustrating the system’s states are presented to reveal the evolution laws of the system. By exploring the effects of force fields and system energy, the underlying mechanism of chaos is interpreted. Additionally, the phenomenon of chaos in the oscillator can be controlled through the method of velocity and displacement states feedback, which holds significance for engineering applications.
文摘Yasunari Kawabata was a famous Japanese novelist and the winner of the 1968 Nobel Prize for Literature. However, considerable debate has persisted concerning the authorship of one of his novels, The Sound of the Mountain, with some claiming that it was in fact written by another celebrated author, Yukio Mishima. In this research, we attempt to resolve this issue by applying character bigrams, part-of-speech bigrams, and phrase patterns as stylometric features, and principal component analysis, hierarchical cluster analysis, and random forests as authorship attribution methods. As a result, we obtained compelling evidence to show that Yukio Mishima was not the author of The Sound of the Mountain.
基金supported by the National Natural Science Foundation of China(No.22278260)the Open Foundation of Key Laboratory of Auxiliary Chemistry and Technology for Chemical Industry(No.KFKT2021-14)Shaanxi Collaborative Innovation Center of Industrial Auxiliary Chemistry and Technology(No.KFKT2021-14).
文摘Aramid papers (AP), made of aramid fibers, demonstrate superiority in electrical insulation applications. Unfortunately, the strength and electrical insulating properties of AP remain suboptimal, primarily due to the smooth surface and chemical inertness of aramid fibers. Herein, AP are modified via the nacre-mimetic structure composed of aramid nanofibers (ANF) and carbonylated basalt nanosheets (CBSNs). This is achieved by impregnating AP into an ANF-CBSNs (A-C) suspension containing a 3D ANF framework as the matrix and 2D CBSNs as fillers. The resultant biomimetic composite papers (AP/A-C composite papers) exhibit a layered “brick-and-mortar” structure, demonstrating superior mechanical and electrical insulating properties. Notably, the tensile strength and breakdown strength of AP/A-C5 composite papers reach 39.69 MPa and 22.04 kV mm^(−1), respectively, representing a 155 % and 85 % increase compared to those of the control AP. These impressive properties are accompanied with excellent volume resistivity, exceptional dielectric properties, impressive folding endurance, outstanding heat insulation, and remarkable flame retardance. The nacre-inspired strategy offers an effective approach for producing highly promising electrical insulating papers for advanced electrical equipment.
基金supported by Heilongjiang Province Key R&D Program(No.GA22A014)。
文摘For realizing the goals of“carbon peak”and“carbon neutrality”,lithium-ion batteries(LIB)with LiFePO_(4)as the cathode material have been widely applied.However,this has also led to a large number of spent lithium-ion batteries,and the safe disposal of spent lithium-ion batteries is an urgent issue.Currently,the main reason for the capacity decay of LiFePO_(4)materials is the Li deficiency and the formation of the Fe^(3+)phase.In order to address this issue,we performed high-temperature calcination of the discarded lithium iron phosphate cathode material in a carbon dioxide environment to reduce or partially remove the carbon coating on its surface.Subsequently,mechanical grinding was conducted to ensure thorough mixing of the lithium source with the discarded lithium iron phosphate.The reaction between CO_(2)and the carbon coating produced a reducing atmosphere,reducing Fe^(3+)to Fe^(2+)and thereby reducing the content of Fe^(3+).The Fe^(3+)content in the repaired LiFePO_(4)material is reduced.The crystal structure of spent LiFePO_(4)cathode materials was repaired more completely compare with the traditional pretreatment method,and the repaired LiFePO_(4)material shows good electrochemical performance and cycling stability.Under 0.1 C conditions,the initial capacity can reach 149.1 m Ah/g.It can be reintroduced for commercial use.
文摘The highly pathogenic influenza A virus subtype H5N1 spread throughout Asia since 2003, reached to Europe in 2005, and the Middle East, as well as Africa and caused a global concern for a potential pandemic threat last decade. A Clade 2.3.2 H5N1 virus became dominate in the Qinghai Lake region in 2009 with sporadic mammal cases of infection and transferred to Russia and Europe through wild migratory birds. Currently, HPAI H5N1 of clades 2.3.4, 2.3.2, and 7 are the dominant co-circulating H5N1 viruses in poultry in Asia. 2.3.2 Clade is dominant in wild birds through the world whereas there is no evident data about Clade 7 circulation in wild birds. We detected HPAI H5N1 virus of Clade 7.1 in Qinghai Lake, that closely related to Shanxi-like and Vietnam viruses co-circulating in poultry. This is the first report of Clade 7.1 H5N1 in wild birds. Based on phylogenetic analyses, the virus can be originated from Clade 7.1 virus gene pool that spread in Vietnam and Chinese poultry and could spread with migratory birds to Qinghai Lake. The Qinghai Lake continues to be significant hotspot for H5N1 surveillance since the regular outbreaks occurred there in wild birds and mammals. Based on these facts and findings, the related researchers should pay more attention to the Qinghai Lake basin as significant hotspot for H5N1 avian influenza surveillance since the regular H5N1 outbreaks occurred there in wild birds with sporadic mammal cases of infection.
基金financially supported by the National Natural Science Foundation of China(Grant Nos.62476278,12434009,and 12204533)the National Key R&D Program of China(Grant No.2024YFA1408601)the Innovation Program for Quantum Science and Technology(Grant No.2021ZD0302402)。
文摘The discovery of new superconducting materials,particularly those exhibiting high critical temperature(Tc),has been a vibrant area of study within the field of condensed matter physics.Conventional approaches primarily rely on physical intuition to search for potential superconductors within the existing databases.However,the known materials only scratch the surface of the extensive array of possibilities within the realm of materials.
文摘Achieving vibration isolation,lightweight design,and reusability under impact remains a critical challenge for thin-walled structures.When the goat skull is subjected to impact,both the outer wall of the sinus and the internal bony struts deform simultaneously to absorb energy and protect intracranial tissues.Inspired by this mechanism,we designed the goat sinus-inspired bio mimetic(GSIB) structure by mimicking the outer wall of the sinus and the internal pillar-like support system.The structure consists of dual coupling beams,including a set of inclined cantilever beams representing the sinus outer wall and vertical support beams simulating the internal bony struts.The GSIB structure was fabricated using Selective Laser Sintering(SLS) 3D printing technology,and its mechanical properties were investigated through a combination of quasi-static compression tests,vibration tests,impact tests,and finite element simulations.Under compressive loading,the inclined cantilever beams buckle to introduce a negative stiffness effect,while the vertical supports enhance overall stiffness.Leveraging the coupling effect between these two components,the structure achieves a long-stroke constant-force response,thereby delivering superior performance in energy absorption and vibration isolation.Additionally,the special deformation mode of the GSIB structure enables it to be reused under impact conditions.It is noteworthy that,compared to the negative stiffness(NS) structure with the same dimensions for repeated buffering proposed in previous studies,the GSIB structure demonstrates an energy absorption capacity reaching 214.3% of that of the NS structure,a reduction in isolation frequency to 58.5%,and an impact acceleration that is only 66.31% of that of the NS structure.Additionally,the plateau stress of the proposed structure increases to 246.07% of that of the NS structure.This novel artificial structure provides a new design strategy for achieving superior energy absorption and impact resistance under repeated impact conditions.
基金Supported by National Basic Evidence-based Capacity Building Project of Traditional Chinese Medicine([2019]130)Natural Science Foundation of Liaoning Province:2024-MS-042+1 种基金Xingliao Talent Program Medical Master Project:YXMJ-QNMZY-10Liaoning University of Traditional Chinese Medicine Key Laboratory of Traditional Chinese Medicine Theory and Application of Ministry of Education open fund project:zyzx2302.
文摘Background Unsedated colonoscopy is an important method used for diagnosing colorectal cancer,but it can cause discomfort such as pain and bloating,as well as anxiety.At present,the relief is mainly achieved through methods such as changing positions and manual pressing,but the efficacy is limited.Hence alternative therapies for sedation and analgesia in unsedated colonoscopy warrant further study.Electroacupuncture(EA)can simplify the procedure of anesthesia and analgesia,while the efficacy of EA on unsedated colonoscopy remains unclear.Therefore,a well-designed randomized controlled trial is needed to demonstrate the potential efficacy of acupuncture in unsedated colonoscopy,particularly for pain relief.Methods In this prospective randomized sham-controlled trial,105 eligible participants will be recruited and randomly assigned to either EA group(n=35),sham EA group(n=35),or control group(n=35)in a 1:1:1 ratio.The EA group will receive acupuncture intervention on bilateral Hegu(LI4),Neiguan(PC6),Zusanli(ST36),and Shenmen(HT7),with LI4 and PC6 on both sides connected to the EA device.The sham EA group will received non transdermal needling on points of no meridian,and deliberately connect the needle to the incorrect output socket of EA device to block the stimulation.The needling will conducted from 30 min before the unsedated colonoscopy to the end of the colonoscopy,the whole retention time would be approximately 40 min.The participants in the control group will not receive any acupuncture intervention.All participants of the three groups will not receive any other treatment.Primary outcomes:Numerical Rating Scale(NRS)reported by participants and Face Pain Scale Revised(FPS-R)evaluated by observers of four areas of the participants during the unsedated colonoscopy.Secondary outcomes:tolerance reported by endoscopists,tolerance reported by participants,satisfaction reported by endoscopists,satisfaction reported by participants,adverse events during the unsedated colonoscopy,postoperative discomfort,unsedated colonoscopy smoothness(cecal insertion time,unwinding time,success rate of one-time intubation).Both intention-to-treat(ITT)and per-protocol(PP)analyses will be performed to assess the efficacy of EA.Discussion The trial will explore the efficacy of relieving pain,improving tolerability,and reducing undesirable adverse events of EA for unsedated colonoscopy.The results of this trial will provide sound evidence for promoting the clinical application of EA for unsedated colonoscopy.Trial registration ClinicalTrials.gov Identifier:ChiCTR2300069903,retrospectively registered on March 16,2023.
基金suported by the Basic Science Research Program through the National Research Foundation of Korea(NRF)funded by the Ministry of Science and ICT(NRF-2022R1A2C2012243).
文摘Accurately identifying crop pests and diseases ensures agricultural productivity and safety.Although current YOLO-based detection models offer real-time capabilities,their conventional convolutional layers involve high computational redundancy and a fixed receptive field,making it challenging to capture local details and global semantics in complex scenarios simultaneously.This leads to significant issues like missed detections of small targets and heightened sensitivity to background interference.To address these challenges,this paper proposes a lightweight adaptive detection network—StarSpark-AdaptiveNet(SSANet),which optimizes features through a dual-module collaborative mechanism.Specifically,the StarNet module utilizes Depthwise separable convolutions(DW-Conv)and dynamic star operations to establish multi-stage feature extraction pathways,enhancing local detail perception within a lightweight framework.Moreover,the Multi-scale Adaptive Spatial Attention Gate(MASAG)module integrates cross-layer feature fusion and dynamic weight allocation to capture multi-scale global contextual information,effectively suppressing background noise.These modules jointly form a“local enhancement-global calibration”bidirectional optimization mechanism,significantly improving the model’s adaptability to complex disease patterns.Furthermore,the proposed Scale-based Dynamic Loss(SD Loss)dynamically adjusts the weight of scale and localization losses,improving regression stability and localization accuracy,especially for small targets.Experiments on the eggplant fruit disease dataset demonstrate that SSANet achieves an mAP50 of 83.9%and a detection speed of 273.5 FPS with only 2.11 M parameters and 5.1 GFLOPs computational cost,outperforming the baseline YOLO11 model by reducing parameters by 18.1%,increasing mAP50 by 1.3%,and improving inference speed by 9.1%.Ablation studies further confirm the effectiveness and complementarity of the modules.SSANet offers a high-accuracy,low-cost solution suitable for real-time pest and disease detection in crops,facilitating edge device deployment and promoting precision agriculture.
文摘BACKGROUND Colorectal cancer(CRC)is a leading cause of cancer-related morbidity and mor-tality globally.Exosomal microRNAs(miRNAs)are known to modulate tumor progression by influencing immune responses and vascular dynamics.However,the roles of specific exosomal miRNAs,such as miR-425-5p and miR-135b-3p,in CRC remain unclear.AIM To explore the specific roles and underlying mechanisms of exosomal miR-425-5p and miR-135b-3p in CRC progression.METHODS Differentially expressed miRNAs were identified through microarray analysis of exosomes isolated from CRC tissues and adjacent normal mucosa.Functional roles of miR-425-5p and miR-135b-3p were evaluated in vitro using macrophage polarization,T cell differentiation,and vascular permeability assays,as well as in vivo tumor formation and metastasis experiments in nude mice.Validation expe-riments were performed using CRC cell lines(HCT116 and SW620).RESULTS Exosomal miR-425-5p and miR-135b-3p were significantly upregulated in CRC compared to normal tissues.Functional studies revealed that miR-425-5p promo-tes macrophage M2-like polarization and suppresses T cell proinflammatory responses,while miR-135b-3p enhances vascular permeability and angiogenesis.Inhibition of these miRNAs in CRC cell-derived exosomes significantly supp-ressed tumor growth and metastasis in nude mice,reprogramming the tumor microenvironment toward reduced angiogenesis and enhanced immune acti-vation.Combined inhibition of both miRNAs resulted in the most pronounced effects.CONCLUSION Exosomal miR-425-5p and miR-135b-3p drive CRC progression by promoting immune suppression and vascular permeability.Their inhibition offers a promising strategy for modulating the tumor microenvironment and limiting CRC metastasis.
基金supported by the National Natural Science Foundation of China(Grant Nos.12372065,12372022,and 11932015)Shanghai Pilot Program for Basic Research—Fudan University(Grant No.21TQ1400100-22TQ009).
文摘Gait coordination in lower limbs plays a critical role in maintaining stability of the human body during walking.For transfemoral amputees,the absence of limbs disrupts this coordination,reducing prosthesis control accuracy.Hip-knee coordination mapping offers a feasible solution for lower-limb prosthesis control,involving the generation of a reference trajectory for the knee joint by leveraging information from the hip.However,current reference trajectories are usually derived from static models,which cannot generate reference trajectories robustly when dealing with perturbations.Therefore,this paper introduces a time-dependent model based on the Delayed Feedback Reservoir(DFR)for hip-knee coordination in lower-limb prosthetic control.Experimental results show that DFR outperforms classical gait planning approaches when facing perturbations,achieving a 20%lower Root Mean Square Error(RMSE)and reducing residuals by up to 18.14 degrees.This research contributes to understanding gait mapping approaches and emphasizes the potential of time-dependent models for robust and strong lower-limb prosthetic control.The discovery provides a novel way to enhance the perturbation adaptability of prosthetic control.
基金supported by the National Natural Science Foundation of China(No.22271154)Natural Science Foundation of Jiangsu Province(No.BK20211179)+3 种基金Innovation Support Program of Jiangsu Province(No.BZ2023055)Fundamental Research Funds for the Central Universities(No.NS2023033)China Postdoctoral Science Foundation(No.2023M731658)Achievement Transformation Project of Qinghai Province(No.2021-SF-145).
文摘Supramolecular prodrug vesicles(H-4⊃B-2@MB)with selective antibacterial activity have been successfully constructed.Specifically,a natural antibiotic prodrug(B-2)with glutathione(GSH)-responsiveness was synthesized.The hydrophobic interaction between B-2 and a novel water-soluble cavitand with deep cavity(H-4)resulted in the formation of a host-vip complex,which further self-assembled into supramolecular vesicles.The formed vesicles could effectively encapsulate the photosensitizer methylene blue(MB),enabling co-delivery of antibiotics and photosensitizers in the presence of GSH.Moreover,upon excitation at 630 nm,the photosensitizers generate reactive oxygen species(ROS),effectively eradicating E.coli through combined chemo-photodynamic therapy.Considering that GSH is predominantly present in Gram-negative bacteria such as E.coli,this strategy exhibits substantial potential for selectively inhibiting bacteria characterized by high GSH levels to regulate bacterial colony equilibrium.
基金Supported by the Natural Science Foundation of Jiangsu Higher Education Institutions,No.22KJB510027the Project of the State Administration of Traditional Chinese Medicine of China,No.GZY-ZJ-KJ-24031.
文摘BACKGROUND Despite improved survival rates in rectal cancer treatment,many patients experience low anterior resection syndrome(LARS).The preoperative LARS score(POLARS)aims to address the limitations of LARS assessment by predicting outcomes preoperatively to enhance surgical planning.AIM To investigate the predictive accuracy of POLARS in assessing the occurrence of LARS.METHODS This study enrolled a total of 335 patients who underwent laparoscopic or robotic low anal sphincter-preserving surgery for rectal tumors.Patients were categorized into three groups according to their POLARS score:no LARS(score 0-20),minor LARS(score 21-29),and major LARS(score 30-42).The QLQ-C30/CR29 scores were compared among these groups,and the agreement between POLARS predictions and the actual LARS scores was analyzed.RESULTS The study population was divided into three groups:major LARS(n=51,27.42%),minor LARS(n=109,58.6%),and no LARS(n=26,13.98%).Significant differences in the QLQ-C30 scales of social function,diarrhea,and financial impact were detected between the no LARS and major LARS groups(P<0.05)and between the minor LARS and major LARS groups(P<0.05).Similarly,significant differences were detected in the QLQ-CR29 scales for blood and mucus in the stool,fecal incontinence,and stool frequency between the no LARS and minor LARS groups(P<0.05),as well as between the minor LARS and major LARS groups(P<0.05).The predictive precision for major LARS using the POLARS score was 82.35%(42/51),with a recall of 35.89%(42/117).The mean absolute error(MAE)between the POLARS score and the actual LARS score was 8.92±5.47.In contrast,the XGBoost(extreme gradient boosting)model achieved a lower MAE of 6.29±4.77,with a precision of 84.39%and a recall of 74.05%for predicting major LARS.CONCLUSION The POLARS score demonstrated effectiveness and precision in predicting major LARS,thereby providing valuable insights into postoperative symptoms and patient quality of life.However,the XGBoost model exhibited superior performance with a lower MAE and higher recall for predicting major LARS compared to the POLARS model.
基金Supported by the National Natural Science Foundation of China(NSFC)-Shandong Joint Fund(No.U 2106208)the NSFC(No.41976147)the Doctoral Fund of Yantai University(No.2222017)。
文摘Jellyfish outbreaks are severely exacerbated by coastal eutrophication,overfishing,and aquaculture.Jellyfish proliferation has been shown closely connected with larval populations during the early stages of their life cycle.However,the factors affecting larval populations have not been fully explored.The changes in metabolites during the transition from planula larvae to polyps were analyzed using ultra-performance liquid chromatography coupled with a mass spectrometer.In jellyfish planula larvae and polyps,lipids and lipid-like molecules are the most abundant metabolites,followed by organic acids and their derivatives,organic heterocyclic compounds,and organic oxygen compounds.In comparison with planula larvae,13 metabolites were significantly increased while 212 were significantly decreased.Most of these metabolites are involved in lipid metabolism,amino acids metabolism,and nucleotide metabolism.Furthermore,during the jellyfish planula larvae metamorphosis and settlement,five differentially expressed metabolites were identified as candidate metabolites that facilitate larvae attachment and metamorphosis,including glycerol lactate pyruvate,N-stearoyl asparagine,4-methyl-umbelliferyl-N-acetyl-chitobiose,levetiracetam,and 4-amino-1-[(2 R,5 R)-5-(hydroxymethyl)-4-sulfanyloxolan-2-yl]pyrimidin-2-one.This study identified the metabolites and helped understand the metabolic mechanisms underlying the attachment and metamorphosis of jellyfish larvae,which expands our knowledge of jellyfish blooming at the early life stage.
基金supported by the Key Research and Development Project of Shaanxi Province(No.2024GX-YBXM-331)the Scientific Research Plan Projects of Shaanxi Education Department(Program No.24JC009)the National Natural Science Foundation of China(No.22278260).
文摘Although lightweight aramid paper honeycombs are highly desirable for microwave absorption owing to their dual functions of both load-bearing and microwave-absorbing,unsatisfactory microwave absorption,inferior mechanical and inadequate thermal properties present significant challenges for practical applications in diverse complex scenarios.Herein,lightweight,high-strength and flame-retardant aramid nanofibers-based honeycombs(MANHs)for integrated microwave absorption and thermal insulation are successfully fabricated via the hydrogen bonding assembly,mold forming and aerogel filling strategy using aramid waste as raw material.The dense network structure formed by the interwoven aramid nanofibers(ANFs)in the honeycomb body acts as a framework endows the MANH with impressive mechanical performance,and the specific strength and toughness of MANH reach 153.6 MPa g^(−1) cm^(−3) and 13.9 MJ m^(−3),respectively,which are 3.5 and 19 times higher than those of commercial microwave absorption honeycombs(CMAH).The ultralight MXene/ANFs aerogels(a density of 25 mg cm^(−3))with multiscale pore structure filled in the honeycomb apertures give the honeycomb outstanding microwave absorption performance,with a minimum reflection loss of−62.5 dB,and can cover the entire X-band with a thickness of only 3.5 mm.Meanwhile,compared with CMAH,the thermal insulation and flame-retardant performance of MANH are also significantly improved.Notably,MANH also demonstrates favorable sound absorption performance at high-frequency bands.The MANH is considered to be a promising candidate for aerospace and military stealth applications as a result of its lightweight,high strength,exceptional microwave absorption,and remarkable thermal insulation performance.
基金support from National Natural Science Foundation of China(32101474 and 42377249)National Key Research and Development Program of China(2023YFD2201605).
文摘CO_(2) conversion to CO via the reverse water-gas shift(RWGS)reaction is limited by a low CO_(2) conversion rate and CO selectivity.Herein,an efficient RWGS catalyst is constructed through Enteromorpha prolifera–derived N-rich mesoporous biochar(EPBC)supported atomic-level Cu-Mo_(2)C clusters(Cu-Mo_(2)C/EPBC).Unlike traditional acti-vated carbon(AC)supported Cu-Mo_(2)C particles(Cu-Mo_(2)C/AC),the Cu-Mo_(2)C/EPBC not only presents the better graphitization degree and larger specific surface area,but also uniformly andfirmly anchors atomic-level Cu-Mo_(2)C clusters due to the existence of pyridine nitrogen.Furthermore,the pyridine N of Cu-Mo_(2)C/EPBC strengthens an unblocked electron transfer between Mo_(2)C and Cu clusters,as verified by X-ray absorption spectroscopy.As a result,the synergistic effect between pyridinic N anchoring and the clusters interaction in Cu-Mo_(2)C/EPBC facilitates an improved CO selectivity of 99.95%at 500℃ compared with traditional Cu-Mo_(2)C/AC(99.60%),as well as about 3-fold CO_(2) conversion rate.Density functional theory calculations confirm that pyr-idine N-modified carbon activates the local electronic redistribution at Cu-Mo_(2)C clusters,which contributes to the decreased energy barrier of the transition state of CO^(*)+O^(*)+2H^(*),thereby triggering the transformation of rate-limited step during the redox pathway.This biomass-derived strategy opens perspective on producing sustain-able fuels and building blocks through the RWGS reaction.
