Premature perovskite films rapidly form at the FAI/PbI_(2)interface,inhibiting further reactions between FAI and PbI_(2)during the fabrication of perovskite films via the evaporating-spraying hybrid method according t...Premature perovskite films rapidly form at the FAI/PbI_(2)interface,inhibiting further reactions between FAI and PbI_(2)during the fabrication of perovskite films via the evaporating-spraying hybrid method according to our previous research.In this research,triphenylphosphine oxide(TPPO)was proved to be an effective coordinator that reduces the reaction rate between FAI and PbI_(2)at the initial stage,which can be attributed to the hydrogen(H)bonds between FA^(+)and TPPO,and coordinate bonds between TPPO and PbI_(2).Additionally,the quality of perovskite films improved significantly:the trap state density decreased from 1.6×10^(18)to 3.17×10^(17)cm^(-3),while the crystal size increased from 740 to 940 nm.The champion perovskite device achieved a remarkable efficiency of 20.93%(0.09 cm^(2))and 16.75%(63.7 cm^(2)),marking one of the highest reported results for the evaporating-spraying hybrid method.Moreover,the perovskite solar cells retained over 80%of their initial performances after 600 h of storage at 60℃in a nitrogen environment without encapsulation.It also maintained approximately 90%of its initial performance after continuous illumination at 25℃for 1400 h under the same conditions.展开更多
The burgeoning market for lithium-ion batteries has stimulated a growing need for more reliable battery performance monitoring. Accurate state-of-health(SOH) estimation is critical for ensuring battery operational per...The burgeoning market for lithium-ion batteries has stimulated a growing need for more reliable battery performance monitoring. Accurate state-of-health(SOH) estimation is critical for ensuring battery operational performance. Despite numerous data-driven methods reported in existing research for battery SOH estimation, these methods often exhibit inconsistent performance across different application scenarios. To address this issue and overcome the performance limitations of individual data-driven models,integrating multiple models for SOH estimation has received considerable attention. Ensemble learning(EL) typically leverages the strengths of multiple base models to achieve more robust and accurate outputs. However, the lack of a clear review of current research hinders the further development of ensemble methods in SOH estimation. Therefore, this paper comprehensively reviews multi-model ensemble learning methods for battery SOH estimation. First, existing ensemble methods are systematically categorized into 6 classes based on their combination strategies. Different realizations and underlying connections are meticulously analyzed for each category of EL methods, highlighting distinctions, innovations, and typical applications. Subsequently, these ensemble methods are comprehensively compared in terms of base models, combination strategies, and publication trends. Evaluations across 6 dimensions underscore the outstanding performance of stacking-based ensemble methods. Following this, these ensemble methods are further inspected from the perspectives of weighted ensemble and diversity, aiming to inspire potential approaches for enhancing ensemble performance. Moreover, addressing challenges such as base model selection, measuring model robustness and uncertainty, and interpretability of ensemble models in practical applications is emphasized. Finally, future research prospects are outlined, specifically noting that deep learning ensemble is poised to advance ensemble methods for battery SOH estimation. The convergence of advanced machine learning with ensemble learning is anticipated to yield valuable avenues for research. Accelerated research in ensemble learning holds promising prospects for achieving more accurate and reliable battery SOH estimation under real-world conditions.展开更多
Development of robust electrocatalyst for oxygen reduction reaction(ORR)in a seawater electrolyte is the key to realize seawater electrolyte-based zinc-air batteries(SZABs).Herein,constructing a local electric field c...Development of robust electrocatalyst for oxygen reduction reaction(ORR)in a seawater electrolyte is the key to realize seawater electrolyte-based zinc-air batteries(SZABs).Herein,constructing a local electric field coupled with chloride ions(Cl-)fixation strategy in dual single-atom catalysts(DSACs)was proposed,and the resultant catalyst delivered considerable ORR performance in a seawater electrolyte,with a high half-wave potential(E_(1/2))of 0.868 V and a good maximum power density(Pmax)of 182 mW·cm^(−2)in the assembled SZABs,much higher than those of the Pt/C catalyst(E_(1/2):0.846 V;Pmax:150 mW·cm^(−2)).The in-situ characterization and theoretical calculations revealed that the Fe sites have a higher Cl^(−)adsorption affinity than the Co sites,and preferentially adsorbs Cl^(−)in a seawater electrolyte during the ORR process,and thus constructs a low-concentration Cl^(−)local microenvironment through the common-ion exclusion effect,which prevents Cl^(−)adsorption and corrosion in the Co active centers,achieving impressive catalytic stability.In addition,the directional charge movement between Fe and Co atomic pairs establishes a local electric field,optimizing the adsorption energy of Co sites for oxygen-containing intermediates,and further improving the ORR activity.展开更多
Physical exercise is recognized as an effective intervention to improve mood,physical performance,and general well-being.It achieves these benefits through cellular and molecular mechanisms that promote the release of...Physical exercise is recognized as an effective intervention to improve mood,physical performance,and general well-being.It achieves these benefits through cellular and molecular mechanisms that promote the release of neuroprotective factors.Interestingly,reduced levels of physical exercise have been implicated in several central nervous system diseases,including ocular disorders.Emerging evidence has suggested that physical exercise levels are significantly lower in individuals with ocular diseases such as glaucoma,age-related macular degeneration,retinitis pigmentosa,and diabetic retinopathy.Physical exercise may have a neuroprotective effect on the retina.Therefore,the association between reduced physical exercise and ocular diseases may involve a bidirectional causal relationship whereby visual impairment leads to reduced physical exercise and decreased exercise exacerbates the development of ocular disease.In this review,we summarize the evidence linking physical exercise to eye disease and identify potential mediators of physical exercise-induced retinal neuroprotection.Finally,we discuss future directions for preclinical and clinical research in exercise and eye health.展开更多
Intravenous leiomyomatosis(IVL)is a rare,histologically benign uterine smooth muscle tumor with malignant biological behavior due to its propensity for intravascular extension.[1]While gynecological in origin,its most...Intravenous leiomyomatosis(IVL)is a rare,histologically benign uterine smooth muscle tumor with malignant biological behavior due to its propensity for intravascular extension.[1]While gynecological in origin,its most severe manifestations are cardiovascular,arising from tumor propagation through the venous system into the inferior vena cava(IVC),right heart,and pulmonary arteries,mimicking thromboembolic disease.[2,3]This can lead to pulmonary embolism(PE),right heart obstruction,and even sudden cardiac death.[4]Diagnosis is challenging,often delayed by misdiagnosis as conventional PE.We present two cases of IVL initially presenting with PE,highlighting the critical cardiovascular implications and diagnostic pitfalls.展开更多
In the process of spraying coating perovskite films,the"coffee ring"effect(CRE)leads to the problem of excessive organic ammonium salt accumulation in local areas that cannot be completely eliminated.We intr...In the process of spraying coating perovskite films,the"coffee ring"effect(CRE)leads to the problem of excessive organic ammonium salt accumulation in local areas that cannot be completely eliminated.We introduce an in-situ targeted defect-healing strategy by incorporating butylamine formate(BAFa)ionic liquid into the spray ink.Ionic liquids,due to their long carbon chain structure,tend to target flow towards the CRE region during the droplet evaporation process.The coordination between the lone pair electrons in the C=O group of BAFa and Pb^(2+)effectively reduces defects in perovskite and suppresses non-radiative recombination losses.Simultaneously,amine ligands,which are repelled to the film surface and grain boundaries,form a thin insulating monolayer in the CRE areas,forcing charge carriers to transport through areas of the perovskite with fewer defects.This approach enables the crystallization control and defect-heal over the Cs_(0.19)FA_(0.81)PbI_(3-x-y)Br_(x)Cl_(y)perovskite films.Consequently,the champion perovskite solar cell achieved a power conversion efficiency of 22.04%,while mini-modules with an effective area of 64.8 cm^(2)reached a peak power conversion efficiency of 18.35%,demonstrating the significant potential for commercializing large-area perovskite solar cells.展开更多
BACKGROUND The diagnosis of primary biliary cholangitis(PBC)remains challenging,particularly in cases where anti-mitochondrial antibody(AMA),anti-mitochondrial E2 subunit antibody(AMA-M2),anti-glycoprotein 210(anti-gp...BACKGROUND The diagnosis of primary biliary cholangitis(PBC)remains challenging,particularly in cases where anti-mitochondrial antibody(AMA),anti-mitochondrial E2 subunit antibody(AMA-M2),anti-glycoprotein 210(anti-gp210),and anti-speckled protein 100(anti-Sp100)are all negative.In such instances,the condition is often confirmed through a liver needle biopsy.AIM To identify additional plasma biomarkers for non-invasive diagnostic methods of PBC.METHODS We utilized the Sengenics KREX^(TM)immunome protein array to identify potential biomarkers for the diagnosis of PBC.Subsequently,we validated the predictive capability of the RPL30 antibody through an ELISA and retrospectively analyzed its association with the clinical features of 17 autoantibody-negative PBC cases and 45 autoantibody-positive PBC cases.RESULTS In our study we observed that RPL30 demonstrated the highest fold-change difference in PBC,with a penetrance frequency of 40%and a penetrance fold change of 38.30147.The analysis of anti-RPL30 optical density values between patients with AMA/AMA-M2/anti-gp210/anti-Sp100-negative PBC(autoantibody-negative PBC)and healthy controls using a receiver operating characteristic curve yielded an area under the curve of 0.853.This analysis established an optimal cutoff value of 0.0708,achieving 100%specificity and 75%sensitivity.The combination of anti-RPL30 and other autoantibodies elevated the diagnosis rate of PBC from 61.29%to 79.00%(P=0.0489).Anti-RPL30 demonstrated a high positive rate in antibody-negative PBC cases,including AMA/AMAM2/anti-gp210/anti-Sp100-negative cases.Correlation analysis of anti-RPL30 optical density values with clinical data from patients with PBC revealed a positive association with both the international normalized ratio(P=0.008)and the Model for End-Stage Liver Disease score(P=0.003).CONCLUSION Our study highlighted the potential of anti-RPL30 as a promising biomarker for diagnosing PBC,particularly in autoantibody-negative cases.展开更多
Efficient catalysis of the oxygen reduction reaction(ORR)and oxygen evolution reaction(OER)is essential for the rechargeable zinc-air batteries(R-ZABs).However,challenges remain due to the scarcity of effective bifunc...Efficient catalysis of the oxygen reduction reaction(ORR)and oxygen evolution reaction(OER)is essential for the rechargeable zinc-air batteries(R-ZABs).However,challenges remain due to the scarcity of effective bifunctional electrocatalysts and limited understanding of the structure-activity relationships.Pyrrole-type single-atom catalysts(SACs)with unique electronic structures have emerged as promising electrocatalysts.In this work,we combine density functional theory(DFT)calculations and experimental studies to systematically explore the structure-activity relationships and potential of pyrrole-type transition metal-N_(3)(TM-po-N_(3))as bifunctional catalysts.DFT calculations reveal that differences in the dependence of ORR and OER activities on the free energy of adsorption of reaction intermediates significantly affect the TM-po-N_(3)bifunctional activity and identify magnetic Cu-po-N_(3)as the best candidate.The bifunctional activity of Cu-po-N_(3)originates from interactions between spin-polarized out-of-plane Cu_3d and O_2s+2p orbitals.Theoretical predictions are validated experimentally,showing that the synthesized Cu-SAC/NC exhibits excellent bifunctional performance with a small potential gap of 0.666 V.Additionally,the assembled R-ZABs display a high-power density of 170 mW cm^(-2)and long-term stability,with the charge-discharge voltage gap increasing by only 0.01 V over 240 h.This work provides new insights into the design of efficient bifunctional catalysts.展开更多
Patriotism education films and television serve as both historical preservers and educational tools,yet the audiovisual acceptance-party history identity relationship remains understudied.Using SPSS-Amos to analyze 44...Patriotism education films and television serve as both historical preservers and educational tools,yet the audiovisual acceptance-party history identity relationship remains understudied.Using SPSS-Amos to analyze 442 student surveys through structural equation modeling,this study reveals that audiovisual acceptance significantly enhances film reception,which in turn strengthens Party history identification and viewer satisfaction,demonstrating these media’s dual capacity to foster historical consciousness and patriotic values among students.展开更多
The ability to localize sound sources rapidly allows human beings to efficiently understand the surrounding environment.Previous studies have suggested that there is an auditory“where”pathway in the cortex for proce...The ability to localize sound sources rapidly allows human beings to efficiently understand the surrounding environment.Previous studies have suggested that there is an auditory“where”pathway in the cortex for processing sound locations.The neural activation in regions along this pathway encodes sound locations by opponent hemifield coding,in which each unilateral region is activated by sounds coming from the contralateral hemifield.However,it is still unclear how these regions interact with each other to form a unified representation of the auditory space.In the present study,we investigated whether functional connectivity in the auditory“where”pathway encoded sound locations during passive listening.Participants underwent functional magnetic resonance imaging while passively listening to sounds from five distinct horizontal locations(−90°,−45°,0°,45°,90°).We were able to decode sound locations from the functional connectivity patterns of the“where”pathway.Furthermore,we found that such neural representation of sound locations was primarily based on the coding of sound lateralization angles to the frontal midline.In addition,whole-brain analysis indicated that functional connectivity between occipital regions and the primary auditory cortex also encoded sound locations by lateralization angles.Overall,our results reveal a lateralization-angle-based representation of sound locations encoded by functional connectivity patterns,which could add on the activation-based opponent hemifield coding to provide a more precise representation of the auditory space.展开更多
基金supported by the National Natural Science Foundation of China(22279031)the Key Research and Development Plan of Hubei Province(2023BAB 109)+3 种基金the Longzhong Talent Planthe Joint Foundation for Innovation and Development of Hubei Natural Science Foundation(2022CFD079,2023AFD034 and 2023AFD032)Graduate Quality Engineering Funding Project of Hubei University of Arts and Sciences(YZ3202304)Independent Innovation Projects of the Hubei Longzhong Laboratory(2024KF-07 and 2024KF-33)。
文摘Premature perovskite films rapidly form at the FAI/PbI_(2)interface,inhibiting further reactions between FAI and PbI_(2)during the fabrication of perovskite films via the evaporating-spraying hybrid method according to our previous research.In this research,triphenylphosphine oxide(TPPO)was proved to be an effective coordinator that reduces the reaction rate between FAI and PbI_(2)at the initial stage,which can be attributed to the hydrogen(H)bonds between FA^(+)and TPPO,and coordinate bonds between TPPO and PbI_(2).Additionally,the quality of perovskite films improved significantly:the trap state density decreased from 1.6×10^(18)to 3.17×10^(17)cm^(-3),while the crystal size increased from 740 to 940 nm.The champion perovskite device achieved a remarkable efficiency of 20.93%(0.09 cm^(2))and 16.75%(63.7 cm^(2)),marking one of the highest reported results for the evaporating-spraying hybrid method.Moreover,the perovskite solar cells retained over 80%of their initial performances after 600 h of storage at 60℃in a nitrogen environment without encapsulation.It also maintained approximately 90%of its initial performance after continuous illumination at 25℃for 1400 h under the same conditions.
基金National Natural Science Foundation of China (52075420)Fundamental Research Funds for the Central Universities (xzy022023049)National Key Research and Development Program of China (2023YFB3408600)。
文摘The burgeoning market for lithium-ion batteries has stimulated a growing need for more reliable battery performance monitoring. Accurate state-of-health(SOH) estimation is critical for ensuring battery operational performance. Despite numerous data-driven methods reported in existing research for battery SOH estimation, these methods often exhibit inconsistent performance across different application scenarios. To address this issue and overcome the performance limitations of individual data-driven models,integrating multiple models for SOH estimation has received considerable attention. Ensemble learning(EL) typically leverages the strengths of multiple base models to achieve more robust and accurate outputs. However, the lack of a clear review of current research hinders the further development of ensemble methods in SOH estimation. Therefore, this paper comprehensively reviews multi-model ensemble learning methods for battery SOH estimation. First, existing ensemble methods are systematically categorized into 6 classes based on their combination strategies. Different realizations and underlying connections are meticulously analyzed for each category of EL methods, highlighting distinctions, innovations, and typical applications. Subsequently, these ensemble methods are comprehensively compared in terms of base models, combination strategies, and publication trends. Evaluations across 6 dimensions underscore the outstanding performance of stacking-based ensemble methods. Following this, these ensemble methods are further inspected from the perspectives of weighted ensemble and diversity, aiming to inspire potential approaches for enhancing ensemble performance. Moreover, addressing challenges such as base model selection, measuring model robustness and uncertainty, and interpretability of ensemble models in practical applications is emphasized. Finally, future research prospects are outlined, specifically noting that deep learning ensemble is poised to advance ensemble methods for battery SOH estimation. The convergence of advanced machine learning with ensemble learning is anticipated to yield valuable avenues for research. Accelerated research in ensemble learning holds promising prospects for achieving more accurate and reliable battery SOH estimation under real-world conditions.
基金supported by the National Natural Science Foundation of China(52164028,52274297)the Start-up Research Foundation of Hainan University(KYQD(ZR)20008,KYQD(ZR)21125,KYQD(ZR)23169))+1 种基金Collaborative Innovation Center of Marine Science and Technology of Hainan University(XTCX2022HYC14)Innovative Research Project for Postgraduate Students in Hainan Province(Qhyb2024-95).
文摘Development of robust electrocatalyst for oxygen reduction reaction(ORR)in a seawater electrolyte is the key to realize seawater electrolyte-based zinc-air batteries(SZABs).Herein,constructing a local electric field coupled with chloride ions(Cl-)fixation strategy in dual single-atom catalysts(DSACs)was proposed,and the resultant catalyst delivered considerable ORR performance in a seawater electrolyte,with a high half-wave potential(E_(1/2))of 0.868 V and a good maximum power density(Pmax)of 182 mW·cm^(−2)in the assembled SZABs,much higher than those of the Pt/C catalyst(E_(1/2):0.846 V;Pmax:150 mW·cm^(−2)).The in-situ characterization and theoretical calculations revealed that the Fe sites have a higher Cl^(−)adsorption affinity than the Co sites,and preferentially adsorbs Cl^(−)in a seawater electrolyte during the ORR process,and thus constructs a low-concentration Cl^(−)local microenvironment through the common-ion exclusion effect,which prevents Cl^(−)adsorption and corrosion in the Co active centers,achieving impressive catalytic stability.In addition,the directional charge movement between Fe and Co atomic pairs establishes a local electric field,optimizing the adsorption energy of Co sites for oxygen-containing intermediates,and further improving the ORR activity.
基金supported by the InnoHK Initiative and the Hong Kong Special Administrative Region Government, China (to SYY)。
文摘Physical exercise is recognized as an effective intervention to improve mood,physical performance,and general well-being.It achieves these benefits through cellular and molecular mechanisms that promote the release of neuroprotective factors.Interestingly,reduced levels of physical exercise have been implicated in several central nervous system diseases,including ocular disorders.Emerging evidence has suggested that physical exercise levels are significantly lower in individuals with ocular diseases such as glaucoma,age-related macular degeneration,retinitis pigmentosa,and diabetic retinopathy.Physical exercise may have a neuroprotective effect on the retina.Therefore,the association between reduced physical exercise and ocular diseases may involve a bidirectional causal relationship whereby visual impairment leads to reduced physical exercise and decreased exercise exacerbates the development of ocular disease.In this review,we summarize the evidence linking physical exercise to eye disease and identify potential mediators of physical exercise-induced retinal neuroprotection.Finally,we discuss future directions for preclinical and clinical research in exercise and eye health.
基金supported by the Capital Medical University Undergraduate Innovation Project 2025(XSKY20-25251).
文摘Intravenous leiomyomatosis(IVL)is a rare,histologically benign uterine smooth muscle tumor with malignant biological behavior due to its propensity for intravascular extension.[1]While gynecological in origin,its most severe manifestations are cardiovascular,arising from tumor propagation through the venous system into the inferior vena cava(IVC),right heart,and pulmonary arteries,mimicking thromboembolic disease.[2,3]This can lead to pulmonary embolism(PE),right heart obstruction,and even sudden cardiac death.[4]Diagnosis is challenging,often delayed by misdiagnosis as conventional PE.We present two cases of IVL initially presenting with PE,highlighting the critical cardiovascular implications and diagnostic pitfalls.
基金supported by the National Natural Science Foundation of China(U21A20171,U20A20245)Natural Scienceof Hubei Province(2023AFA010)Independent Innovation Projects of the Hubei Longzhong Laboratory。
文摘In the process of spraying coating perovskite films,the"coffee ring"effect(CRE)leads to the problem of excessive organic ammonium salt accumulation in local areas that cannot be completely eliminated.We introduce an in-situ targeted defect-healing strategy by incorporating butylamine formate(BAFa)ionic liquid into the spray ink.Ionic liquids,due to their long carbon chain structure,tend to target flow towards the CRE region during the droplet evaporation process.The coordination between the lone pair electrons in the C=O group of BAFa and Pb^(2+)effectively reduces defects in perovskite and suppresses non-radiative recombination losses.Simultaneously,amine ligands,which are repelled to the film surface and grain boundaries,form a thin insulating monolayer in the CRE areas,forcing charge carriers to transport through areas of the perovskite with fewer defects.This approach enables the crystallization control and defect-heal over the Cs_(0.19)FA_(0.81)PbI_(3-x-y)Br_(x)Cl_(y)perovskite films.Consequently,the champion perovskite solar cell achieved a power conversion efficiency of 22.04%,while mini-modules with an effective area of 64.8 cm^(2)reached a peak power conversion efficiency of 18.35%,demonstrating the significant potential for commercializing large-area perovskite solar cells.
基金Supported by National Natural Science Foundation of China,No.82172257Health Care Major Project of Guangzhou,No.202206080001Science and Technology Cooperation Program of Fujian Province,No.2021I0036。
文摘BACKGROUND The diagnosis of primary biliary cholangitis(PBC)remains challenging,particularly in cases where anti-mitochondrial antibody(AMA),anti-mitochondrial E2 subunit antibody(AMA-M2),anti-glycoprotein 210(anti-gp210),and anti-speckled protein 100(anti-Sp100)are all negative.In such instances,the condition is often confirmed through a liver needle biopsy.AIM To identify additional plasma biomarkers for non-invasive diagnostic methods of PBC.METHODS We utilized the Sengenics KREX^(TM)immunome protein array to identify potential biomarkers for the diagnosis of PBC.Subsequently,we validated the predictive capability of the RPL30 antibody through an ELISA and retrospectively analyzed its association with the clinical features of 17 autoantibody-negative PBC cases and 45 autoantibody-positive PBC cases.RESULTS In our study we observed that RPL30 demonstrated the highest fold-change difference in PBC,with a penetrance frequency of 40%and a penetrance fold change of 38.30147.The analysis of anti-RPL30 optical density values between patients with AMA/AMA-M2/anti-gp210/anti-Sp100-negative PBC(autoantibody-negative PBC)and healthy controls using a receiver operating characteristic curve yielded an area under the curve of 0.853.This analysis established an optimal cutoff value of 0.0708,achieving 100%specificity and 75%sensitivity.The combination of anti-RPL30 and other autoantibodies elevated the diagnosis rate of PBC from 61.29%to 79.00%(P=0.0489).Anti-RPL30 demonstrated a high positive rate in antibody-negative PBC cases,including AMA/AMAM2/anti-gp210/anti-Sp100-negative cases.Correlation analysis of anti-RPL30 optical density values with clinical data from patients with PBC revealed a positive association with both the international normalized ratio(P=0.008)and the Model for End-Stage Liver Disease score(P=0.003).CONCLUSION Our study highlighted the potential of anti-RPL30 as a promising biomarker for diagnosing PBC,particularly in autoantibody-negative cases.
基金supported by the Hainan Province Science and Technology Special Fund(ZDYF2020037)the National Natural Science Foundation of China(22109035,52164028,52274297,22462006)+3 种基金the Postdoctoral Science Foundation of Hainan Province(RZ2100007123)the Basic and Applied Basic Research Foundation of Guangdong Province(2019A1515110558)the Start-up Research Foundation of Hainan University(KYQD(ZR)-20008,20083,20084,21125)Hainan University(XTCX2022HYC05)。
文摘Efficient catalysis of the oxygen reduction reaction(ORR)and oxygen evolution reaction(OER)is essential for the rechargeable zinc-air batteries(R-ZABs).However,challenges remain due to the scarcity of effective bifunctional electrocatalysts and limited understanding of the structure-activity relationships.Pyrrole-type single-atom catalysts(SACs)with unique electronic structures have emerged as promising electrocatalysts.In this work,we combine density functional theory(DFT)calculations and experimental studies to systematically explore the structure-activity relationships and potential of pyrrole-type transition metal-N_(3)(TM-po-N_(3))as bifunctional catalysts.DFT calculations reveal that differences in the dependence of ORR and OER activities on the free energy of adsorption of reaction intermediates significantly affect the TM-po-N_(3)bifunctional activity and identify magnetic Cu-po-N_(3)as the best candidate.The bifunctional activity of Cu-po-N_(3)originates from interactions between spin-polarized out-of-plane Cu_3d and O_2s+2p orbitals.Theoretical predictions are validated experimentally,showing that the synthesized Cu-SAC/NC exhibits excellent bifunctional performance with a small potential gap of 0.666 V.Additionally,the assembled R-ZABs display a high-power density of 170 mW cm^(-2)and long-term stability,with the charge-discharge voltage gap increasing by only 0.01 V over 240 h.This work provides new insights into the design of efficient bifunctional catalysts.
基金One of the research results of the quality engineering project of Guangzhou Education Bureau in 2024,“Exploration and Research on Teaching Reform of Audiovisual Language Based on OBE Concept”(2024YBJG049)。
文摘Patriotism education films and television serve as both historical preservers and educational tools,yet the audiovisual acceptance-party history identity relationship remains understudied.Using SPSS-Amos to analyze 442 student surveys through structural equation modeling,this study reveals that audiovisual acceptance significantly enhances film reception,which in turn strengthens Party history identification and viewer satisfaction,demonstrating these media’s dual capacity to foster historical consciousness and patriotic values among students.
基金supported by the National Key Research and Development Program of China(2023YFF1203502)the National Natural Science Foundation of China(62171300,62301343,and 62394314)+1 种基金the Project of Cultivation for Young Top-Notch Talents of Beijing Municipal Institutions(BPHR202203109)the Capital Medical University Research and Development Fund(PYZ22027).
文摘The ability to localize sound sources rapidly allows human beings to efficiently understand the surrounding environment.Previous studies have suggested that there is an auditory“where”pathway in the cortex for processing sound locations.The neural activation in regions along this pathway encodes sound locations by opponent hemifield coding,in which each unilateral region is activated by sounds coming from the contralateral hemifield.However,it is still unclear how these regions interact with each other to form a unified representation of the auditory space.In the present study,we investigated whether functional connectivity in the auditory“where”pathway encoded sound locations during passive listening.Participants underwent functional magnetic resonance imaging while passively listening to sounds from five distinct horizontal locations(−90°,−45°,0°,45°,90°).We were able to decode sound locations from the functional connectivity patterns of the“where”pathway.Furthermore,we found that such neural representation of sound locations was primarily based on the coding of sound lateralization angles to the frontal midline.In addition,whole-brain analysis indicated that functional connectivity between occipital regions and the primary auditory cortex also encoded sound locations by lateralization angles.Overall,our results reveal a lateralization-angle-based representation of sound locations encoded by functional connectivity patterns,which could add on the activation-based opponent hemifield coding to provide a more precise representation of the auditory space.
