Black soil is essential for maintaining regional food security and promoting global agricultural production.Understanding the weathering process of parent material and the accumulation of organic carbon is crucial to ...Black soil is essential for maintaining regional food security and promoting global agricultural production.Understanding the weathering process of parent material and the accumulation of organic carbon is crucial to comprehending the developmental history and future trends of black soil,especially against the background of large-scale global cultivation and climate change.Although the importance of black soil formation and evolution cannot be ignored,the relevant research is still very scarce.In this study,a typical eight-meter-deep soil core was collected from the Keshan area of the Songnen Plain,Northeast China,where surface black soil developed on paleo-sediments.Using^(14)C dating,the formation age of the black soil was determined.Based on the characteristics of the geochemical composition,grain size and the magnetic susceptibility of the sediments,it was demonstrated that the black soil and its parent material originated from reworked loess.Furthermore,the mass transfer coefficient(τ)of some elements was determined,in order to explore the soil weathering process.By calculating the transported amount of alkaline and alkaline-earth elements,the weathering rate of parent material to black soil was found to be weak,at 0.16 kEq·ha^(-1)·year^(-1).Combining the results of dating and carbon density in the different layers of black soil,the accumulation rate of organic carbon was determined as follows:rapidly increasing in the initial period of 13.2-2.2 ka,reaching its maximum average value of 34.0 g·cm^(-2)·a^(-1)at 2.2-0.8 ka,then showing a decreasing trend with an average value of-77.5 g·cm^(-2)·a^(-1).Compared with regional climate change,Keshan black soil has developed under a colder and wetter climate during the Holocene.Predictably,ongoing global warming may lead to the degradation of black soils in the Songnen Plain,as well as in other regions.Our results will enrich geological knowledge of black soil formation and future evolutionary trends.展开更多
Metal phosphides have been studied as prospective anode materials for sodium-ion batteries(SIBs)due to their higher specific capacity compared to other anode materials.However,rapid capacity decay and limited cycle li...Metal phosphides have been studied as prospective anode materials for sodium-ion batteries(SIBs)due to their higher specific capacity compared to other anode materials.However,rapid capacity decay and limited cycle life caused by volume expansion and low electrical conductivity of phosphides in SIBs remain still unsolved.To address these issues,GeP_(3) was first prepared by high-energy ball milling,and then Ketjen black(KB)was introduced to synthesize composite GeP_(3)/KB anode materials under controlled milling speed and time by a secondary ball milling process.During the ball milling process,GeP_(3) and KB form strong chemical bonds,resulting in a closely bonded composite.Consequently,the GeP_(3)/KB anodes was demonstrated excellent sodium storage performance,achieving a high reversible capacity of 933.41 mAh·g^(–1) at a current density of 0.05 A·g^(–1) for a special formula of GeP_(3)/KB-600-40 sample prepared at ball milling speed of 600 r/min for 40 h.Even at a high current density of 2 A·g^(–1) over 200 cycles,the capacity remains 314.52 mAh·g^(–1) with a retention rate of 66.6%.In conclusion,this work successfully prepares GeP_(3)/KB anode-carbon composite for electrodes by high-energy ball milling,which can restrict electrode volume expansion,enhance capacity,and improve cycle stability of SIBs.展开更多
The advancement of planar micro-supercapacitors(PMSCs)for micro-electromechanical systems(MEMS)has been significantly hindered by the challenge of achieving high energy and power densities.This study addresses this is...The advancement of planar micro-supercapacitors(PMSCs)for micro-electromechanical systems(MEMS)has been significantly hindered by the challenge of achieving high energy and power densities.This study addresses this issue by leveraging screen-printing technology to fabricate high-performance PMSCs using innovative composite ink.The ink,a synergistic blend of few-layer graphene(Gt),carbon black(CB),and NiCo_(2)O_(4),was meticulously mixed to form a conductive and robust coating that enhanced the capacitive performance of the PMSCs.The optimized ink formulation and printing process result in a micro-supercapacitor with an exceptional areal capacitance of 18.95 mF/cm^(2)and an areal energy density of 2.63μW·h/cm^(2)at a current density of 0.05 mA/cm^(2),along with an areal power density of 0.025 mW/cm^(2).The devices demonstrated impressive durability with a capacitance retention rate of 94.7%after a stringent 20000-cycle test,demonstrating their potential for long-term applications.Moreover,the PMSCs displayed excellent mechanical flexibility,with a capacitance decrease of only 3.43%after 5000 bending cycles,highlighting their suitability for flexible electronic devices.The ease of integrating these PMSCs into series and parallel configurations for customized power further underscores their practicality for integrated power supply solutions in various technologies.展开更多
The Chandipura vesiculovirus(CHPV),a single-stranded,negative sense RNA arbovirus with five structural proteins-the G,N,M,P,and L proteins-is the source of Chandipura virus infection.Children between the ages of 9 mon...The Chandipura vesiculovirus(CHPV),a single-stranded,negative sense RNA arbovirus with five structural proteins-the G,N,M,P,and L proteins-is the source of Chandipura virus infection.Children between the ages of 9 months and 14 years old are the most common recipients of CHPV infection,which is primarily spread by sand flies(Sergentomyia,Phlebotomus species).The potential advantages of black seeds(N.sativa)in the treatment of patients with CHPV infection are the main topic of our current review.The majority of patients infected with CHPV experience neurological complications such as encephalitis and other neurological complications.Since there is currently no approved antiviral treatment,supportive care and symptomatic therapy are the primary methods used to manage CHPV-infected patients.Herbal candidates possessing antioxidant,immunomodulatory,antiviral,and anti-inflammatory qualities may aid in the treatment of CHPV infection.The antiviral,anti-inflammatory,antioxidant,and immunomodulatory qualities of black seeds(N.sativa)have been shown in a number of preclinical and clinical investigations;these attributes could be helpful in the treatment of CHPV infection.Black seeds(N.sativa)may help treat CHPV-infected patients in the early stages of their illness when used in conjunction with symptomatic therapy and supportive care.In patients infected with CHPV,additional randomized controlled clinical trials would assess the efficacy and safety of black seeds(N.sativa).展开更多
This work provides a descriptive analysis of the so-called Black American community whose practical consciousness is a result of adopting,and reacting to,both white values and discriminatory terms to constitute their ...This work provides a descriptive analysis of the so-called Black American community whose practical consciousness is a result of adopting,and reacting to,both white values and discriminatory terms to constitute their practical activities and so-called cultural identity.Outside of the practices associated with these values and discriminatory terms,there is no sui generis Black American identity and community with its own form of system and social integration that is different from,or diametrically opposes,the Protestant Ethic and the spirit of capitalism of their white counterparts,which would emerge out of that relationship.展开更多
Simple cubic black phosphorus(BP)has been recognized as a strategic material due to its exceptional structural stability under extreme conditions.In this investigation,simple cubic BP was successfully synthesized thro...Simple cubic black phosphorus(BP)has been recognized as a strategic material due to its exceptional structural stability under extreme conditions.In this investigation,simple cubic BP was successfully synthesized through shock-induced phase transformation,utilizing amorphous red phosphorus as the precursor material.The phase evolution process was systematically investigated using plane shock loading apparatus,with shock pressure and temperature parameters being precisely controlled to optimize transformation kinetics.Comprehensive phase characterization revealed the correlation between thermodynamic loading profiles and cubic BP formation efficiency.Precursor modification strategies were implemented through orthorhombic BP utilization,resulting in enhanced cubic phase yield and crystallinity.The synthesized cubic BP variants are considered promising candidates for advanced protective material systems,particularly where combinations of mechanical resilience and thermal stability are required under extreme operational conditions.This research provides critical insights into shock-induced phase transformation mechanics,while establishing foundational protocols for manufacturing non-equilibrium materials with potential applications in next-generation defensive technologies.展开更多
An earlier version of this paper has been presented online at the annual Conference of Canadian Sociological Association,during the Congress of Humanities and Social Sciences in Toronto in June 2025.It explores how ra...An earlier version of this paper has been presented online at the annual Conference of Canadian Sociological Association,during the Congress of Humanities and Social Sciences in Toronto in June 2025.It explores how rap music in Quebec,particularly through the work of the rap artist Webster and his collective Limoilou Starz(LS),serves as a tool for meaning-making,political expression,and resistance against racial profiling and police brutality experienced by Black youth in Quebec City.The study focuses on the song“SPVQ”(Service de police de la Ville de Québec)as a case study to analyze the encoding and reception of anti-racist messages within rap culture.Webster draws from a global tradition of socio-political rap-like that of African-American rappers KRS-One,LL Cool J,and Tupac-while anchoring his critique in the local realities of Limoilou,a marginalized,racially diverse district of Quebec City.Through a narrative,figurative,semantic,and ideological analysis of the song,the paper reveals how Webster articulates themes of police brutality,structural discrimination,economic marginalization,and resistance.The rapper’s message is both a form of testimony and a civic intervention.His broader activism is analyzed through ethnographic techniques-including participant observation and interviews during workshops,media appearances,and online campaigns.It translates these messages into tangible social practices.To explain the persistence of these injustices,the paper situates the issue within Quebec’s interculturalism framework,which ostensibly promotes dialogue and integration but often masks or even reinforces structural racism.This model maintains a symbolic majority/minority duality and conditions inclusion on conformity to a dominant White Francophone identity,thus rendering racialized youth as perpetual outsiders.展开更多
Primordial black holes(PBHs) offer a compelling candidate for dark matter. The production of PBHs through well-tested and accepted physical processes is highly worthy of investigation. This work highlights the role of...Primordial black holes(PBHs) offer a compelling candidate for dark matter. The production of PBHs through well-tested and accepted physical processes is highly worthy of investigation. This work highlights the role of turbulences in the very early universe in sustaining intense and persistent fluctuations in energy or mass density,which could provide a natural mechanism for PBH formation in the primordial universe. We analyze the mass range and abundance of PBHs produced in the magnetohydrodynamic turbulence induced by the electroweak phase transition. Remarkably, we find that the mass range of the produced PBHs falls within the most viable“asteroid mass” window from the present-day observations, and within natural parameter regions their abundance can be sufficiently large. These findings suggest that PBHs produced during magnetohydrodynamic turbulence in the very early universe may comprise a dominant part of dark matter.展开更多
We assume exponential corrections to the entropy of 5D charged Ad S black hole solutions,which are derived within the framework of Einstein-Gauss-Bonnet gravity and nonlinear electrodynamics.Additionally,we consider t...We assume exponential corrections to the entropy of 5D charged Ad S black hole solutions,which are derived within the framework of Einstein-Gauss-Bonnet gravity and nonlinear electrodynamics.Additionally,we consider two distinct versions of 5D charged Ad S black holes by setting the parameters q→0 and k→0(where q represents the charge,and k is the non-linear parameter).We investigate these black holes in the extended phase space,where the cosmological constant is interpreted as pressure,demonstrating the first law of black hole thermodynamics.The focus extends to understanding the thermal stability or instability,as well as identifying first and second-order phase transitions.This exploration is carried out through the analysis of various thermodynamic quantities,including heat capacity at constant pressure,Gibbs free energy(GFE),Helmholtz free energy(HFE),and the trace of the Hessian matrix.In order to visualize phase transitions,identify critical points,analyze stability and provide comprehensive analysis,we have made the contour plot of the mentioned thermodynamic quantities and observed that our results are very consistent.These investigations are conducted within the context of exponentially corrected entropies,providing valuable insights into the intricate thermodynamic behavior of these 5D charged Ad S black holes under different parameter limits.展开更多
Humans and other vertebrates are safeguarded from invading pathogenic microbes by the immune system.Black seed,scientifically known as Nigella sativa,has garnered attention for its potential immunomodulatory effects i...Humans and other vertebrates are safeguarded from invading pathogenic microbes by the immune system.Black seed,scientifically known as Nigella sativa,has garnered attention for its potential immunomodulatory effects in both clinical and preclinical studies.This comprehensive review aims to consolidate and analyze the existing body of evidence surrounding the immunological impact of black seeds.In this review,we analyze the immunomodulatory potentials of black seeds(N.sativa).For the purpose of finding pertinent publications,the literatures was searched in web-based databases,including Web of Science,Medline/PMC/PubMed,Embase,EBSCO,Google Scholar,Science Direct,and reference lists.Several clinical,in vivo,and in vitro studies have demonstrated that supplementation with black seeds(N.sativa)has potential immunomodulatory activity.Black seeds(N.sativa)may influence immune responses through a variety of mechanisms.By synthesizing and critically assessing the current state of knowledge on the immunomodulatory effects of black seeds,this review aims to provide valuable insights into the potential therapeutic uses and future research directions for harnessing the immunological benefits of this natural remedy.展开更多
The comprehension of universal thermodynamic behaviors in the supercritical region is crucial for examining the characteristics of black hole systems under high temperature and pressure.This study is devoted to the an...The comprehension of universal thermodynamic behaviors in the supercritical region is crucial for examining the characteristics of black hole systems under high temperature and pressure.This study is devoted to the analysis of characteristic lines and crossover behaviors within the supercritical region.By making use of the free energy,we introduce three key thermodynamic quantities:scaled variance,skewness,and kurtosis.Our results demonstrate that the Widom line,associated with the maximal scaled variance,can effectively differentiate between small and large black hole-like subphases,each displaying distinct thermodynamic behaviors within the supercritical region.Furthermore,by utilizing quasinormal modes,we identify the Frenkel line,offering a dynamic perspective to distinguish between small and large black hole-like subphases.These contribute to a deeper comprehension of black hole subphases in the supercritical region,thus illuminating new facets of black hole thermodynamics.展开更多
The gravitational memory effect manifests gravitational nonlinearity,degenerate vacua,and asymptotic symmetries;its detection is considered challenging.We propose using a space-borne interferometer to detect memory si...The gravitational memory effect manifests gravitational nonlinearity,degenerate vacua,and asymptotic symmetries;its detection is considered challenging.We propose using a space-borne interferometer to detect memory signals from stellar-mass binary black holes(BBHs),typically targeted by ground-based detectors.We use DECIGO detector as an example.Over 5 years,DECIGO is estimated to detect approximately 2,036 memory signals(SNRs>3)from stellar-mass BBHs.Simulations used frequency-domain memory waveforms for direct SNR estimation.Predictions utilized a GWTC-3 constrained BBH population model(Power law+Peak mass,DEFAULT spin,Madau-Dickinson merger rate).The analysis used conservative lower merger rate limits and considered orbital eccentricity.The high detection rate stems from strong memory signals within DECIGO’s bandwidth and the abundance of stellar-mass BBHs.This substantial and conservative detection count enables statistical use of the memory effect for fundamental physics and astrophysics.DECIGO exemplifies that space interferometers may better detect memory signals from smaller mass binaries than their typical targets.Detectors in lower frequency bands are expected to find strong memory signals from∼10^(4)M⊙binaries.展开更多
In the current era of technological advancement,where the concept of"all industries can be itelligent"is becoming increasingly prevalent,the role of artificial itelligence(AI)is becoming more pronounced.AI i...In the current era of technological advancement,where the concept of"all industries can be itelligent"is becoming increasingly prevalent,the role of artificial itelligence(AI)is becoming more pronounced.AI is playing a crucial role in accelerating the transition from laboratory-level research to industrialization.Suzhou Tongxing Intelligence Technology Co,Ltd.has strategically invested in R&D.展开更多
We present the optical light curves of the tidal disruption event AT 2023clx in the declining phase,observed with Mephisto.Combining our light curve with the ASAS-SN and ATLAS data in the rising phase,and fitting the ...We present the optical light curves of the tidal disruption event AT 2023clx in the declining phase,observed with Mephisto.Combining our light curve with the ASAS-SN and ATLAS data in the rising phase,and fitting the composite multi-band light curves with MOSFiT,we estimate black hole mass for AT 2023clx is between 10^(5.67)and 10^(5.82)M_(⊙).This event may be caused by either a full disruption of a 0.1M_(⊙)star,or a partial disruption of a 0.99M_(⊙) star,depending on the data adopted for the rising phase.Based on those fit results and the non-detection of soft X-ray photons in the first 90 days,we propose that the observed optical radiation is powered by stream-stream collision.We speculate that the soft X-ray photons may gradually emerge in 100-600 days after the optical peak,when the debris is fully circularized into a compact accretion disk.展开更多
Carbon nanotubes(CNTs),black phosphorus nanotubes(BPNTs),and graphene derivatives exhibit significant promise for applications in nano-electromechanical systems(NEMS),energy storage,and sensing technologies due to the...Carbon nanotubes(CNTs),black phosphorus nanotubes(BPNTs),and graphene derivatives exhibit significant promise for applications in nano-electromechanical systems(NEMS),energy storage,and sensing technologies due to their exceptional mechanical,electrical,and thermal properties.This review summarizes recent advances in understanding the dynamic behaviors of these nanomaterials,with a particular focus on insights gained from molecular dynamics(MD)simulations.Key areas discussed include the oscillatory and rotational dynamics of double-walled CNTs,fabrication and stability challenges associated with BPNTs,and the emerging potential of graphyne nanotubes(GNTs).The review also outlines design strategies for enhancing nanodevice performance and underscores the importance of future efforts in experimental validation,multi-scale coupling analyses,and the development of novel nanocomposites to accelerate practical deployment.展开更多
1 Introduction The recent emergence of human-like language models like ChatGPT has raised concerns regarding the potential abuse of LLMs for malicious purposes[1,2].Detecting text generated by LLMs has become critical...1 Introduction The recent emergence of human-like language models like ChatGPT has raised concerns regarding the potential abuse of LLMs for malicious purposes[1,2].Detecting text generated by LLMs has become critically important[3].展开更多
Black phosphorus quantum dots(BPQDs)have been used as the nano-carrier in the field of biomedicine due to their excellent electronic conductivity,optical and thermoelectric properties.However,it is still lack of evalu...Black phosphorus quantum dots(BPQDs)have been used as the nano-carrier in the field of biomedicine due to their excellent electronic conductivity,optical and thermoelectric properties.However,it is still lack of evaluation of the safety of BPQDs,specifically on the effects and mechanisms of BPQDs on heart.In this study,the specific pathogen-free male mice were orally administered with different doses of BPQDs(0.02,0.1,0.5 mg/kg)for 28 days.BPQDs exposure decreased the heart-body ratio and caused cardiac hypertrophy and fibrosis.Additionally,ferroptosis was observed in the cardiac tissue.The recent study has shown BPQDs oral exposure alter gut microbiota.Here,after exposure to 0.1 mg/kg BPQDs for 28 days,the germ-free mice showed neither cardiac injury nor ferroptosis.Taken together,the study demonstrates that BPQDs induce cardiac ferroptosis and fibrosis,possibly mediated by gut microbiota.This research may aid in enhancing understanding of the biosafety of BP nanomaterials and promoting the sustainable development of nanotechnology.展开更多
Olfactory receptors(ORs),the largest vertebrate multigene family,exhibit wide copy number variation among taxa,ranging from~100 to 4000.The ecological importance of smell has been suggested to positively correlate wit...Olfactory receptors(ORs),the largest vertebrate multigene family,exhibit wide copy number variation among taxa,ranging from~100 to 4000.The ecological importance of smell has been suggested to positively correlate with OR gene number,though debate exists on whether the number of total ORs,functional ORs,or the percentage of pseudogenes matters most.While olfaction has been poorly studied in most birds,Turkey Vultures(Cathartes aura)demonstrate keen olfactory ability,capable of foraging using smell alone.In contrast,Black Vultures(Coragyps atratus)have been thought to primarily use vision to locate food.Comparison of the OR genes in these two New World vultures presents an opportunity to examine the dynamics of OR evolution in related avian species that may differ in olfactory abilities.Using a PCR and cloning approach with degenerate primers,we sampled the OR subgenome in Turkey and Black Vultures,as well as Red-tailed Hawks(Buteo jamaicensis)and the distantly related Chicken(Gallus gallus),neither of which are thought to use olfaction extensively.Our results indicate that Turkey Vultures have many more OR genes than Red-tailed Hawks or chickens.Surprisingly,Black Vultures had an intermediate number of OR genes.The number of OR genes we estimated in the Turkey Vulture was much greater than previously reported in studies that used short-read sequencing.Additionally,we found that OR genes from New World vultures and Red-tailed Hawks form clades that were distinct from the clade that included most chicken OR genes,indicating that chickens share few OR orthologs with New World vultures or hawks.As previously observed in other animal groups,pseudogenes appeared throughout all clades and their percentage varied among taxa.These findings suggest the OR gene family is highly dynamic,changing rapidly over evolutionary time,and that taxa may have distinct suites of ORs in their genomes.展开更多
Designing advanced electrocatalysts with high methanol tolerance in the oxygen reduction reaction process is crucial for the sustainable implementation of direct methanol fuel cells.Herein,we present a Pt/C catalyst m...Designing advanced electrocatalysts with high methanol tolerance in the oxygen reduction reaction process is crucial for the sustainable implementation of direct methanol fuel cells.Herein,we present a Pt/C catalyst modified with black phosphorus(BP)nanodots(BPNDs-Pt/C)by using a facile ultrasonic mixing method.Experimental and computational investigations reveal that the electron transfer from BP to Pt leads to weak adsorption of hydroxyl groups on the Pt surface.As a result,the BPNDs-Pt/C catalyst exhibits efficient activity and anti-methanol ability for cathodic oxygen reduction electrocatalysis in an acidic medium.Additionally,it demonstrates high activity for oxygen reduction reaction(ORR)in an alternative alkaline system with cation exchange membrane and eliminable methanol penetration.This work highlights the feasibility of using non-metallic elements to regulate the electronic structure and surface properties of Pt-based nanomaterials.Furthermore,the designed BPNDs-Pt/C electrocatalyst,with controllable ORR performance,can be applied across various scenarios based on demand.展开更多
基金financially supported by the Science and Technology Innovation Foundation of the Command Center of Integrated Natural Resources Survey Center(KC20230002)the China Geological Survey Project(DD20230471,DD20220855 and DD20243282)+1 种基金the National Natural Science Foundation of China(41872100)the National Key R&D Plan(2022YFC2903402)。
文摘Black soil is essential for maintaining regional food security and promoting global agricultural production.Understanding the weathering process of parent material and the accumulation of organic carbon is crucial to comprehending the developmental history and future trends of black soil,especially against the background of large-scale global cultivation and climate change.Although the importance of black soil formation and evolution cannot be ignored,the relevant research is still very scarce.In this study,a typical eight-meter-deep soil core was collected from the Keshan area of the Songnen Plain,Northeast China,where surface black soil developed on paleo-sediments.Using^(14)C dating,the formation age of the black soil was determined.Based on the characteristics of the geochemical composition,grain size and the magnetic susceptibility of the sediments,it was demonstrated that the black soil and its parent material originated from reworked loess.Furthermore,the mass transfer coefficient(τ)of some elements was determined,in order to explore the soil weathering process.By calculating the transported amount of alkaline and alkaline-earth elements,the weathering rate of parent material to black soil was found to be weak,at 0.16 kEq·ha^(-1)·year^(-1).Combining the results of dating and carbon density in the different layers of black soil,the accumulation rate of organic carbon was determined as follows:rapidly increasing in the initial period of 13.2-2.2 ka,reaching its maximum average value of 34.0 g·cm^(-2)·a^(-1)at 2.2-0.8 ka,then showing a decreasing trend with an average value of-77.5 g·cm^(-2)·a^(-1).Compared with regional climate change,Keshan black soil has developed under a colder and wetter climate during the Holocene.Predictably,ongoing global warming may lead to the degradation of black soils in the Songnen Plain,as well as in other regions.Our results will enrich geological knowledge of black soil formation and future evolutionary trends.
基金National Natural Science Foundation of China Young Scientist Fund(22105120)Shaanxi Province Qin Chuangyuan“Scientist+Engineer”Team Construction Project(2024QCY-KXJ-127)。
文摘Metal phosphides have been studied as prospective anode materials for sodium-ion batteries(SIBs)due to their higher specific capacity compared to other anode materials.However,rapid capacity decay and limited cycle life caused by volume expansion and low electrical conductivity of phosphides in SIBs remain still unsolved.To address these issues,GeP_(3) was first prepared by high-energy ball milling,and then Ketjen black(KB)was introduced to synthesize composite GeP_(3)/KB anode materials under controlled milling speed and time by a secondary ball milling process.During the ball milling process,GeP_(3) and KB form strong chemical bonds,resulting in a closely bonded composite.Consequently,the GeP_(3)/KB anodes was demonstrated excellent sodium storage performance,achieving a high reversible capacity of 933.41 mAh·g^(–1) at a current density of 0.05 A·g^(–1) for a special formula of GeP_(3)/KB-600-40 sample prepared at ball milling speed of 600 r/min for 40 h.Even at a high current density of 2 A·g^(–1) over 200 cycles,the capacity remains 314.52 mAh·g^(–1) with a retention rate of 66.6%.In conclusion,this work successfully prepares GeP_(3)/KB anode-carbon composite for electrodes by high-energy ball milling,which can restrict electrode volume expansion,enhance capacity,and improve cycle stability of SIBs.
基金supported by the Shanxi Province Central Guidance Fund for Local Science and Technology Development Project(YDZJSX2024D030)the National Natural Science Foundation of China(22075197,22278290)+2 种基金the Shanxi Province Key Research and Development Program Project(2021020660301013)the Shanxi Provincial Natural Science Foundation of China(202103021224079)the Research and Development Project of Key Core and Common Technology of Shanxi Province(20201102018).
文摘The advancement of planar micro-supercapacitors(PMSCs)for micro-electromechanical systems(MEMS)has been significantly hindered by the challenge of achieving high energy and power densities.This study addresses this issue by leveraging screen-printing technology to fabricate high-performance PMSCs using innovative composite ink.The ink,a synergistic blend of few-layer graphene(Gt),carbon black(CB),and NiCo_(2)O_(4),was meticulously mixed to form a conductive and robust coating that enhanced the capacitive performance of the PMSCs.The optimized ink formulation and printing process result in a micro-supercapacitor with an exceptional areal capacitance of 18.95 mF/cm^(2)and an areal energy density of 2.63μW·h/cm^(2)at a current density of 0.05 mA/cm^(2),along with an areal power density of 0.025 mW/cm^(2).The devices demonstrated impressive durability with a capacitance retention rate of 94.7%after a stringent 20000-cycle test,demonstrating their potential for long-term applications.Moreover,the PMSCs displayed excellent mechanical flexibility,with a capacitance decrease of only 3.43%after 5000 bending cycles,highlighting their suitability for flexible electronic devices.The ease of integrating these PMSCs into series and parallel configurations for customized power further underscores their practicality for integrated power supply solutions in various technologies.
文摘The Chandipura vesiculovirus(CHPV),a single-stranded,negative sense RNA arbovirus with five structural proteins-the G,N,M,P,and L proteins-is the source of Chandipura virus infection.Children between the ages of 9 months and 14 years old are the most common recipients of CHPV infection,which is primarily spread by sand flies(Sergentomyia,Phlebotomus species).The potential advantages of black seeds(N.sativa)in the treatment of patients with CHPV infection are the main topic of our current review.The majority of patients infected with CHPV experience neurological complications such as encephalitis and other neurological complications.Since there is currently no approved antiviral treatment,supportive care and symptomatic therapy are the primary methods used to manage CHPV-infected patients.Herbal candidates possessing antioxidant,immunomodulatory,antiviral,and anti-inflammatory qualities may aid in the treatment of CHPV infection.The antiviral,anti-inflammatory,antioxidant,and immunomodulatory qualities of black seeds(N.sativa)have been shown in a number of preclinical and clinical investigations;these attributes could be helpful in the treatment of CHPV infection.Black seeds(N.sativa)may help treat CHPV-infected patients in the early stages of their illness when used in conjunction with symptomatic therapy and supportive care.In patients infected with CHPV,additional randomized controlled clinical trials would assess the efficacy and safety of black seeds(N.sativa).
文摘This work provides a descriptive analysis of the so-called Black American community whose practical consciousness is a result of adopting,and reacting to,both white values and discriminatory terms to constitute their practical activities and so-called cultural identity.Outside of the practices associated with these values and discriminatory terms,there is no sui generis Black American identity and community with its own form of system and social integration that is different from,or diametrically opposes,the Protestant Ethic and the spirit of capitalism of their white counterparts,which would emerge out of that relationship.
基金supported by the Youth Project of the Independent Subject of the State Key Laboratory of Explosion Science and Safety Protection,Beijing Institute of Technology(Grant Nos.QNKT25-13 and QNKT24-02)the 76th batch of Project funded by China Postdoctoral Science Foundation(Grant No.2024M764116)+3 种基金the National Natural Science Foundation of China(Grant Nos.12002048,12072037,12102050,and 12202067)the Science and Technology Commission,China(Grant No.2019-jcjc-zd-011-00)the Project supported by the Open Funds of Kui Yuan Laboratory(Grant No.KY202431)the State Key Laboratory of Explosion Science and Safety Protection(Grant No.KFJJ25-21M)。
文摘Simple cubic black phosphorus(BP)has been recognized as a strategic material due to its exceptional structural stability under extreme conditions.In this investigation,simple cubic BP was successfully synthesized through shock-induced phase transformation,utilizing amorphous red phosphorus as the precursor material.The phase evolution process was systematically investigated using plane shock loading apparatus,with shock pressure and temperature parameters being precisely controlled to optimize transformation kinetics.Comprehensive phase characterization revealed the correlation between thermodynamic loading profiles and cubic BP formation efficiency.Precursor modification strategies were implemented through orthorhombic BP utilization,resulting in enhanced cubic phase yield and crystallinity.The synthesized cubic BP variants are considered promising candidates for advanced protective material systems,particularly where combinations of mechanical resilience and thermal stability are required under extreme operational conditions.This research provides critical insights into shock-induced phase transformation mechanics,while establishing foundational protocols for manufacturing non-equilibrium materials with potential applications in next-generation defensive technologies.
文摘An earlier version of this paper has been presented online at the annual Conference of Canadian Sociological Association,during the Congress of Humanities and Social Sciences in Toronto in June 2025.It explores how rap music in Quebec,particularly through the work of the rap artist Webster and his collective Limoilou Starz(LS),serves as a tool for meaning-making,political expression,and resistance against racial profiling and police brutality experienced by Black youth in Quebec City.The study focuses on the song“SPVQ”(Service de police de la Ville de Québec)as a case study to analyze the encoding and reception of anti-racist messages within rap culture.Webster draws from a global tradition of socio-political rap-like that of African-American rappers KRS-One,LL Cool J,and Tupac-while anchoring his critique in the local realities of Limoilou,a marginalized,racially diverse district of Quebec City.Through a narrative,figurative,semantic,and ideological analysis of the song,the paper reveals how Webster articulates themes of police brutality,structural discrimination,economic marginalization,and resistance.The rapper’s message is both a form of testimony and a civic intervention.His broader activism is analyzed through ethnographic techniques-including participant observation and interviews during workshops,media appearances,and online campaigns.It translates these messages into tangible social practices.To explain the persistence of these injustices,the paper situates the issue within Quebec’s interculturalism framework,which ostensibly promotes dialogue and integration but often masks or even reinforces structural racism.This model maintains a symbolic majority/minority duality and conditions inclusion on conformity to a dominant White Francophone identity,thus rendering racialized youth as perpetual outsiders.
基金supported by the International Partnership Program of the Chinese Academy of Sciences (Grant No.025GJHZ2023106GC)。
文摘Primordial black holes(PBHs) offer a compelling candidate for dark matter. The production of PBHs through well-tested and accepted physical processes is highly worthy of investigation. This work highlights the role of turbulences in the very early universe in sustaining intense and persistent fluctuations in energy or mass density,which could provide a natural mechanism for PBH formation in the primordial universe. We analyze the mass range and abundance of PBHs produced in the magnetohydrodynamic turbulence induced by the electroweak phase transition. Remarkably, we find that the mass range of the produced PBHs falls within the most viable“asteroid mass” window from the present-day observations, and within natural parameter regions their abundance can be sufficiently large. These findings suggest that PBHs produced during magnetohydrodynamic turbulence in the very early universe may comprise a dominant part of dark matter.
基金the Deanship of Research and Graduate Studies at King Khalid University for funding this work through Large Research Project under Grant No.RGP2/539/45。
文摘We assume exponential corrections to the entropy of 5D charged Ad S black hole solutions,which are derived within the framework of Einstein-Gauss-Bonnet gravity and nonlinear electrodynamics.Additionally,we consider two distinct versions of 5D charged Ad S black holes by setting the parameters q→0 and k→0(where q represents the charge,and k is the non-linear parameter).We investigate these black holes in the extended phase space,where the cosmological constant is interpreted as pressure,demonstrating the first law of black hole thermodynamics.The focus extends to understanding the thermal stability or instability,as well as identifying first and second-order phase transitions.This exploration is carried out through the analysis of various thermodynamic quantities,including heat capacity at constant pressure,Gibbs free energy(GFE),Helmholtz free energy(HFE),and the trace of the Hessian matrix.In order to visualize phase transitions,identify critical points,analyze stability and provide comprehensive analysis,we have made the contour plot of the mentioned thermodynamic quantities and observed that our results are very consistent.These investigations are conducted within the context of exponentially corrected entropies,providing valuable insights into the intricate thermodynamic behavior of these 5D charged Ad S black holes under different parameter limits.
文摘Humans and other vertebrates are safeguarded from invading pathogenic microbes by the immune system.Black seed,scientifically known as Nigella sativa,has garnered attention for its potential immunomodulatory effects in both clinical and preclinical studies.This comprehensive review aims to consolidate and analyze the existing body of evidence surrounding the immunological impact of black seeds.In this review,we analyze the immunomodulatory potentials of black seeds(N.sativa).For the purpose of finding pertinent publications,the literatures was searched in web-based databases,including Web of Science,Medline/PMC/PubMed,Embase,EBSCO,Google Scholar,Science Direct,and reference lists.Several clinical,in vivo,and in vitro studies have demonstrated that supplementation with black seeds(N.sativa)has potential immunomodulatory activity.Black seeds(N.sativa)may influence immune responses through a variety of mechanisms.By synthesizing and critically assessing the current state of knowledge on the immunomodulatory effects of black seeds,this review aims to provide valuable insights into the potential therapeutic uses and future research directions for harnessing the immunological benefits of this natural remedy.
基金supported by the National Natural Science Foundation of China(Grant Nos.12473001,11975072,11875102,11835009,and 11965013)the National SKA Program of China(Grant Nos.2022SKA0110200 and 2022SKA0110203)+1 种基金the National 111 Project(Grant No.B16009)supported by Yunnan High-level Talent Training Support Plan Young&Elite Talents Project(Grant No.YNWR-QNBJ-2018-181).
文摘The comprehension of universal thermodynamic behaviors in the supercritical region is crucial for examining the characteristics of black hole systems under high temperature and pressure.This study is devoted to the analysis of characteristic lines and crossover behaviors within the supercritical region.By making use of the free energy,we introduce three key thermodynamic quantities:scaled variance,skewness,and kurtosis.Our results demonstrate that the Widom line,associated with the maximal scaled variance,can effectively differentiate between small and large black hole-like subphases,each displaying distinct thermodynamic behaviors within the supercritical region.Furthermore,by utilizing quasinormal modes,we identify the Frenkel line,offering a dynamic perspective to distinguish between small and large black hole-like subphases.These contribute to a deeper comprehension of black hole subphases in the supercritical region,thus illuminating new facets of black hole thermodynamics.
基金supported by the National Natural Science Foundation of China(Grant Nos.11633001,11920101003,and 12205222 for S.H.)the Key Program of the National Natural Science Foundation of China(Grant No.12433001)+1 种基金the Strate-gic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDB23000000)the National Key Research and Development Program of China(Grant No.2021YFC2203001 for Z.C.Z.).
文摘The gravitational memory effect manifests gravitational nonlinearity,degenerate vacua,and asymptotic symmetries;its detection is considered challenging.We propose using a space-borne interferometer to detect memory signals from stellar-mass binary black holes(BBHs),typically targeted by ground-based detectors.We use DECIGO detector as an example.Over 5 years,DECIGO is estimated to detect approximately 2,036 memory signals(SNRs>3)from stellar-mass BBHs.Simulations used frequency-domain memory waveforms for direct SNR estimation.Predictions utilized a GWTC-3 constrained BBH population model(Power law+Peak mass,DEFAULT spin,Madau-Dickinson merger rate).The analysis used conservative lower merger rate limits and considered orbital eccentricity.The high detection rate stems from strong memory signals within DECIGO’s bandwidth and the abundance of stellar-mass BBHs.This substantial and conservative detection count enables statistical use of the memory effect for fundamental physics and astrophysics.DECIGO exemplifies that space interferometers may better detect memory signals from smaller mass binaries than their typical targets.Detectors in lower frequency bands are expected to find strong memory signals from∼10^(4)M⊙binaries.
文摘In the current era of technological advancement,where the concept of"all industries can be itelligent"is becoming increasingly prevalent,the role of artificial itelligence(AI)is becoming more pronounced.AI is playing a crucial role in accelerating the transition from laboratory-level research to industrialization.Suzhou Tongxing Intelligence Technology Co,Ltd.has strategically invested in R&D.
基金the South-Western Institute for Astronomy Research of Yunnan University(SWIFAR-YNU),funded by the“Yunnan University Development Plan for World-Class University”and“Yunnan University Development Plan for World-Class Astronomy Discipline.”The authors acknowledge support from the“Science&Technology Champion Project”(202005AB160002)from two“Team Projects”-the“Innovation Team”(202105AE160021)the“Top Team”(202305AT350002)'funded by the“Yunnan Revitalization Talent Support Program.”。
文摘We present the optical light curves of the tidal disruption event AT 2023clx in the declining phase,observed with Mephisto.Combining our light curve with the ASAS-SN and ATLAS data in the rising phase,and fitting the composite multi-band light curves with MOSFiT,we estimate black hole mass for AT 2023clx is between 10^(5.67)and 10^(5.82)M_(⊙).This event may be caused by either a full disruption of a 0.1M_(⊙)star,or a partial disruption of a 0.99M_(⊙) star,depending on the data adopted for the rising phase.Based on those fit results and the non-detection of soft X-ray photons in the first 90 days,we propose that the observed optical radiation is powered by stream-stream collision.We speculate that the soft X-ray photons may gradually emerge in 100-600 days after the optical peak,when the debris is fully circularized into a compact accretion disk.
文摘Carbon nanotubes(CNTs),black phosphorus nanotubes(BPNTs),and graphene derivatives exhibit significant promise for applications in nano-electromechanical systems(NEMS),energy storage,and sensing technologies due to their exceptional mechanical,electrical,and thermal properties.This review summarizes recent advances in understanding the dynamic behaviors of these nanomaterials,with a particular focus on insights gained from molecular dynamics(MD)simulations.Key areas discussed include the oscillatory and rotational dynamics of double-walled CNTs,fabrication and stability challenges associated with BPNTs,and the emerging potential of graphyne nanotubes(GNTs).The review also outlines design strategies for enhancing nanodevice performance and underscores the importance of future efforts in experimental validation,multi-scale coupling analyses,and the development of novel nanocomposites to accelerate practical deployment.
基金supported by the National Natural Science Foundation of China(Grant Nos.62076217,U21B2048 and U22B2037)the National Language Commission(ZDI145-71)the Blue Project of Jiangsu,the Top-level Talents Support Program,the Blue Project and Teaching Reform Project(YZUJX2023-D8)of Yangzhou University.
文摘1 Introduction The recent emergence of human-like language models like ChatGPT has raised concerns regarding the potential abuse of LLMs for malicious purposes[1,2].Detecting text generated by LLMs has become critically important[3].
基金supported by the National Natural Science Foundation of China(No.22376174)the Natural Science Foundation of Xiamen Municipality(No.2022FCX012503010342).
文摘Black phosphorus quantum dots(BPQDs)have been used as the nano-carrier in the field of biomedicine due to their excellent electronic conductivity,optical and thermoelectric properties.However,it is still lack of evaluation of the safety of BPQDs,specifically on the effects and mechanisms of BPQDs on heart.In this study,the specific pathogen-free male mice were orally administered with different doses of BPQDs(0.02,0.1,0.5 mg/kg)for 28 days.BPQDs exposure decreased the heart-body ratio and caused cardiac hypertrophy and fibrosis.Additionally,ferroptosis was observed in the cardiac tissue.The recent study has shown BPQDs oral exposure alter gut microbiota.Here,after exposure to 0.1 mg/kg BPQDs for 28 days,the germ-free mice showed neither cardiac injury nor ferroptosis.Taken together,the study demonstrates that BPQDs induce cardiac ferroptosis and fibrosis,possibly mediated by gut microbiota.This research may aid in enhancing understanding of the biosafety of BP nanomaterials and promoting the sustainable development of nanotechnology.
基金supported by a grant from the Singer Biology Fund at the University of Florida。
文摘Olfactory receptors(ORs),the largest vertebrate multigene family,exhibit wide copy number variation among taxa,ranging from~100 to 4000.The ecological importance of smell has been suggested to positively correlate with OR gene number,though debate exists on whether the number of total ORs,functional ORs,or the percentage of pseudogenes matters most.While olfaction has been poorly studied in most birds,Turkey Vultures(Cathartes aura)demonstrate keen olfactory ability,capable of foraging using smell alone.In contrast,Black Vultures(Coragyps atratus)have been thought to primarily use vision to locate food.Comparison of the OR genes in these two New World vultures presents an opportunity to examine the dynamics of OR evolution in related avian species that may differ in olfactory abilities.Using a PCR and cloning approach with degenerate primers,we sampled the OR subgenome in Turkey and Black Vultures,as well as Red-tailed Hawks(Buteo jamaicensis)and the distantly related Chicken(Gallus gallus),neither of which are thought to use olfaction extensively.Our results indicate that Turkey Vultures have many more OR genes than Red-tailed Hawks or chickens.Surprisingly,Black Vultures had an intermediate number of OR genes.The number of OR genes we estimated in the Turkey Vulture was much greater than previously reported in studies that used short-read sequencing.Additionally,we found that OR genes from New World vultures and Red-tailed Hawks form clades that were distinct from the clade that included most chicken OR genes,indicating that chickens share few OR orthologs with New World vultures or hawks.As previously observed in other animal groups,pseudogenes appeared throughout all clades and their percentage varied among taxa.These findings suggest the OR gene family is highly dynamic,changing rapidly over evolutionary time,and that taxa may have distinct suites of ORs in their genomes.
基金supported by the National Natural Science Foundation of China(No.22208322)the Natural Science Foundation of Henan(No.242300421230)+1 种基金the Key Research Projects of Higher Education Institutions of Henan Province(No.24A530009)the Special Fund for Young Teachers from Zhengzhou University(No.JC23257011).
文摘Designing advanced electrocatalysts with high methanol tolerance in the oxygen reduction reaction process is crucial for the sustainable implementation of direct methanol fuel cells.Herein,we present a Pt/C catalyst modified with black phosphorus(BP)nanodots(BPNDs-Pt/C)by using a facile ultrasonic mixing method.Experimental and computational investigations reveal that the electron transfer from BP to Pt leads to weak adsorption of hydroxyl groups on the Pt surface.As a result,the BPNDs-Pt/C catalyst exhibits efficient activity and anti-methanol ability for cathodic oxygen reduction electrocatalysis in an acidic medium.Additionally,it demonstrates high activity for oxygen reduction reaction(ORR)in an alternative alkaline system with cation exchange membrane and eliminable methanol penetration.This work highlights the feasibility of using non-metallic elements to regulate the electronic structure and surface properties of Pt-based nanomaterials.Furthermore,the designed BPNDs-Pt/C electrocatalyst,with controllable ORR performance,can be applied across various scenarios based on demand.
