T his summer,the central dance floor of New York’s Lincoln Center came alive as thousands of audience members moved to the rhythm of Da Zhan Hong Tu(Blueprint Supreme).The song's performer,young rapper Chen Xukai...T his summer,the central dance floor of New York’s Lincoln Center came alive as thousands of audience members moved to the rhythm of Da Zhan Hong Tu(Blueprint Supreme).The song's performer,young rapper Chen Xukai,also known by his stage names Lan Lao and SKAI ISYOURGOD,is from China's Guangdong Province,and had more than 3 million listeners this July on Spotify,the global streaming giant.展开更多
South Korean President Lee Jae-myung's state visit to China signals a strategic recalibration of China-South Korea relations,aiming to restore high-level dialogues,rebuild political trust and forge new economic co...South Korean President Lee Jae-myung's state visit to China signals a strategic recalibration of China-South Korea relations,aiming to restore high-level dialogues,rebuild political trust and forge new economic cooperation amid shifting regional dynamics.展开更多
BEIJING,Jan.2(Xinhua)-Every year on New Year's Eve,Chinese President Xi Jinping delivers his New Year greetings to the Chinese people from his office,with the Great Wall,a symbol of the Chinese nation’s resilienc...BEIJING,Jan.2(Xinhua)-Every year on New Year's Eve,Chinese President Xi Jinping delivers his New Year greetings to the Chinese people from his office,with the Great Wall,a symbol of the Chinese nation’s resilience and heritage,depicted the backdrop.展开更多
On December 26,2025 China announced plans to begin the zero-carbon transformation of 52 industrial parks across the country.This first batch of parks span sectors such as new energy,advanced manufactur-ing and computi...On December 26,2025 China announced plans to begin the zero-carbon transformation of 52 industrial parks across the country.This first batch of parks span sectors such as new energy,advanced manufactur-ing and computing.The list ensures every province,autonomous region,and municipality has at least one designated park,with transforma-tion set for completion by 2030.展开更多
BEIJING,Dec.31(Xinhua)-On New Year's Eve,Chinese President Xi Jinping delivered his 2026 New Year message through China Media Group and the Internet.The following is the full text of the message:Greetings to all!Y...BEIJING,Dec.31(Xinhua)-On New Year's Eve,Chinese President Xi Jinping delivered his 2026 New Year message through China Media Group and the Internet.The following is the full text of the message:Greetings to all!Year after year,life opens a fresh chapter.As the new year begins,I extend my best wishes to you from Beijing!展开更多
主题语境:人与社会——传统节日,家人团圆Before I came to China,I thought I knew about the Spring Festival,or“Chinese New Year”as we commonly call it in English.We learned to say“Gong Xi Fa Cai(恭喜发财)”in school an...主题语境:人与社会——传统节日,家人团圆Before I came to China,I thought I knew about the Spring Festival,or“Chinese New Year”as we commonly call it in English.We learned to say“Gong Xi Fa Cai(恭喜发财)”in school and saw pictures of red lanterns and firecrackers(爆竹)。展开更多
With the increasing integration of renewable energy,microgrids are increasingly facing stability challenges,primarily due to the lack of inherent inertia in inverter-dominated systems,which is traditionally provided b...With the increasing integration of renewable energy,microgrids are increasingly facing stability challenges,primarily due to the lack of inherent inertia in inverter-dominated systems,which is traditionally provided by synchronous generators.To address this critical issue,Virtual Synchronous Generator(VSG)technology has emerged as a highly promising solution by emulating the inertia and damping characteristics of conventional synchronous generators.To enhance the operational efficiency of virtual synchronous generators(VSGs),this study employs smallsignal modeling analysis,root locus methods,and synchronous generator power-angle characteristic analysis to comprehensively evaluate how virtual inertia and damping coefficients affect frequency stability and power output during transient processes.Based on these analyses,an adaptive control strategy is proposed:increasing the virtual inertia when the rotor angular velocity undergoes rapid changes,while strengthening the damping coefficient when the speed deviation exceeds a certain threshold to suppress angular velocity oscillations.To validate the effectiveness of the proposed method,a grid-connected VSG simulation platform was developed inMATLAB/Simulink.Comparative simulations demonstrate that the proposed adaptive control strategy outperforms conventional VSGmethods by significantly reducing grid frequency deviations and shortening active power response time during active power command changes and load disturbances.This approach enhances microgrid stability and dynamic performance,confirming its viability for renewable-dominant power systems.Future work should focus on experimental validation and real-world parameter optimization,while further exploring the strategy’s effectiveness in improvingVSG low-voltage ride-through(LVRT)capability and power-sharing applications in multi-parallel configurations.展开更多
Greetings to all!Year after year,life opens a fresh chapter.As the new year begins,I extend my best wishes to you from Beijing!The year 2025 marks the completion of China's 14th Five-Year Plan(2021-25)for economic...Greetings to all!Year after year,life opens a fresh chapter.As the new year begins,I extend my best wishes to you from Beijing!The year 2025 marks the completion of China's 14th Five-Year Plan(2021-25)for economic and social development.展开更多
Enhancing innovation-driven develop ment to accelerate the cultivation of new growth drivers is one of the major strate-gic tasks for China's economic work in 2026.In the context of the rapid global acceleration o...Enhancing innovation-driven develop ment to accelerate the cultivation of new growth drivers is one of the major strate-gic tasks for China's economic work in 2026.In the context of the rapid global acceleration of technological develop ment and strong pushes from the West toward de-globalization and protection-ism,China’s efforts will require the continued deep integration of technology with its institutions,personnel,culture and market.展开更多
Adult neurogenesis is a highly dynamic process that leads to the production of new neurons from a population of quiescent neural stem cells(NSCs).In response to specific endogenous and/or external stimuli,NSCs enter a...Adult neurogenesis is a highly dynamic process that leads to the production of new neurons from a population of quiescent neural stem cells(NSCs).In response to specific endogenous and/or external stimuli,NSCs enter a state of mitotic activation,initiating proliferation and differentiation pathways.Throughout this process,NSCs give rise to neural progenitors,which undergo multiple replicative and differentiative steps,each governed by precise molecular pathways that coordinate cellular changes and signals from the surrounding neurogenic niche.展开更多
To enhance power flow regulation in scenarios involving large-scale renewable energy transmission via high-voltage direct current(HVDC)links and multi-infeed DC systems in load-center regions,this paper proposes a hyb...To enhance power flow regulation in scenarios involving large-scale renewable energy transmission via high-voltage direct current(HVDC)links and multi-infeed DC systems in load-center regions,this paper proposes a hybrid modular multilevel converter–capacitor-commutated line-commutated converter(MMC-CLCC)HVDC transmission system and its corresponding control strategy.First,the system topology is constructed,and a submodule configuration method for the MMC—combining full-bridge submodules(FBSMs)and half-bridge submodules(HBSMs)—is proposed to enable direct power flow reversal.Second,a hierarchical control strategy is introduced,includingMMCvoltage control,CLCC current control,and a coordinationmechanism,along with the derivation of the hybrid system’s power flow reversal characteristics.Third,leveraging the CLCC’s fast current regulation and theMMC’s negative voltage control capability,a coordinated power flow reversal control strategy is developed.Finally,an 800 kV MMC-CLCC hybrid HVDC system is modeled in PSCAD/EMTDC to validate the power flow reversal performance under a high proportion of full-bridge submodule configuration.Results demonstrate that the proposed control strategy enables rapid(1-s transition)and smooth switching of bidirectional power flow without modifying the structure of primary equipment:the transient fluctuation ofDC voltage from the rated value(UdcN)to themaximumreverse voltage(-kUdcN)is less than 5%;the DC current strictly follows the preset characteristic curve with a deviation of≤3%;the active power reverses continuously,and the system maintains stable operation throughout the reversal process.展开更多
Background Recently,new anti-epileptic drugs (AEDs) have been more frequently selected to treat epilepsy.In the present study,we evaluated the dynamic changes of efficacy and safety of three newer AEDs for treating ...Background Recently,new anti-epileptic drugs (AEDs) have been more frequently selected to treat epilepsy.In the present study,we evaluated the dynamic changes of efficacy and safety of three newer AEDs for treating partial epilepsy in China.Methods Patients were collected sequentially and were divided into three groups which accepted oxcarbazepine (OXC),lamotrigine (LTG) or topiramate (TPM) therapy.Each group included monotherapy and add-on therapy subgroups.We followed all patients for one year and recorded the indexes of efficacy and safety in detail.Results A total of 909 patients finished the follow-up observation.No significant difference was found in proportion of patients with 〉 or =50% reduction,〉 or =75% reduction and 100% seizure reduction in the LTG and OXC groups between the first and the second six months.In the TPM group there was a statistical difference between the first and the second six months in proportion of patients with 〉 or =50% reduction (P=-0.002),〉 or =75% reduction (P 〈0.0001) and 100% seizure reduction (P=0.009) in the monotherapy subgroup,and about 〉 or =75% reduction and 100% seizure reduction in the add-on therapy subgroup (P 〈0.0001).The efficacy between the add-on and monotherapy subgroups showed a statistical difference.The safety of the three newer AEDs was good.Conclusions The three newer AEDs all showed good efficacy and tolerability for partial epilepsy.And the efficacy can be maintained for at least one year.展开更多
Three new wood-rotting fungi Peniophorella growing on Pinus yunnanensis in southwestern China,Peniophorella euryhypha,Peniophorella pinicola and Peniophorella stellata,are described based on morphology and phylogeny.T...Three new wood-rotting fungi Peniophorella growing on Pinus yunnanensis in southwestern China,Peniophorella euryhypha,Peniophorella pinicola and Peniophorella stellata,are described based on morphology and phylogeny.They all have annual resupinate basidiomata with smooth,white to cream hymenophore and clavate to cylindrical leptocystidia without resinous matter.P.euryhypha is characterized by simple septate subicular hyphae 7.5-9.5μm wide and broadly clavate to sphaeropedunculate cystidia,narrowly ellipsoid basidiospores 9.3-11×3-4.3μm.P.pinicola is characterized by encrusted hyphae and bowl-shaped stephanocysts and thick-walled cystidia,oblong-ellipsoid basidiospores 5.5-8×3.2-5μm.P.stellata is characterized by leptocystidia and sometimes hyphidia encrusted with rosette-like crystals in subhymenium and hymenium,and oblong-ellipsoid basidiospores 8-10×3.5-5μm.In addition,Peniophorella cremea is considered as a synonym of Hyphoderma transiens.A key to Chinese species of Peniophorella is provided.展开更多
Studying the coupling coordination development of new energy vehicles(NEVs)and the ecological environment in China is helpful in promoting the development of NEVs in the country and is of great significance in promoti...Studying the coupling coordination development of new energy vehicles(NEVs)and the ecological environment in China is helpful in promoting the development of NEVs in the country and is of great significance in promoting high-quality development of new energy in China.This paper constructs an evaluation index system for the development of NEVs and the ecological environment.It uses game theory combining weighting model,particle swarm optimized projection tracking evaluation model,coupling coordination degree model,and machine learning algorithms to calculate and analyze the level of coupling coordination development of NEVs and the ecological environment in China from 2010 to 2021,and identifies the driving factors.The research results show that:(i)From 2010 to 2021,the development index of NEVs in China has steadily increased from 0.085 to 0.634,while the ecological environment level index significantly rose from 0.170 to 0.884,reflecting the continuous development of China in both NEVs and the ecological environment.(ii)From 2010 to 2012,the two systems—new energy vehicle(NEV)development and the ecological environment—were in a period of imbalance and decline.From 2013 to 2016,they underwent a transition period,and from 2017 to 2021,they entered a period of coordinated development showing a trend of benign and continuous improvement.By 2021,they reached a good level of coordination.(iii)Indicators such as the number of patents granted for NEVs,water consumption per unit of GDP,and energy consumption per unit of GDP are the main driving factors affecting the coupling coordination development of NEVs and the ecological environment in China.展开更多
Significant exploration progress has been made in ultra-deep clastic rocks in the Kuqa Depression,Tarim Basin,over recent years.A new round of comprehensive geological research has formed four new understandings:(1)Es...Significant exploration progress has been made in ultra-deep clastic rocks in the Kuqa Depression,Tarim Basin,over recent years.A new round of comprehensive geological research has formed four new understandings:(1)Establish structural model consisting of multi-detachment composite,multi-stage structural superposition and multi-layer deformation.Multi-stage structural traps are overlapped vertically,and a series of structural traps are discovered in underlying ultra-deep layers.(2)Five sets of high-quality large-scale source rocks of three types of organic phases are developed in the Triassic and Jurassic systems,and forming a good combination of source-reservoir-cap rocks in ultra-deep layers with three sets of large-scale regional reservoir and cap rocks.(3)The formation of large oil and gas fields is controlled by four factors which are source,reservoir,cap rocks and fault.Based on the spatial configuration relationship of these four factors,a new three-dimensional reservoir formation model for ultra-deep clastic rocks in the Kuqa Depression has been established.(4)The next key exploration fields for ultra-deep clastic rocks in the Kuqa Depression include conventional and unconventional oil and gas.The conventional oil and gas fields include the deep multi-layer oil-gas accumulation zone in Kelasu,tight sandstone gas of Jurassic Ahe Formation in the northern structural zone,multi-target layer lithological oil and gas reservoirs in Zhongqiu–Dina structural zone,lithologic-stratigraphic and buried hill composite reservoirs in south slope and other favorable areas.Unconventional oil and gas fields include deep coal rock gas of Jurassic Kezilenuer and Yangxia formations,Triassic Tariqike Formation and Middle-Lower Jurassic and Upper Triassic continental shale gas.The achievements have important reference significance for enriching the theory of ultra-deep clastic rock oil and gas exploration and guiding the future oil and gas exploration deployment.展开更多
Finding materials with specific properties is a hot topic in materials science.Traditional materials design relies on empirical and trial-and-error methods,requiring extensive experiments and time,resulting in high co...Finding materials with specific properties is a hot topic in materials science.Traditional materials design relies on empirical and trial-and-error methods,requiring extensive experiments and time,resulting in high costs.With the development of physics,statistics,computer science,and other fields,machine learning offers opportunities for systematically discovering new materials.Especially through machine learning-based inverse design,machine learning algorithms analyze the mapping relationships between materials and their properties to find materials with desired properties.This paper first outlines the basic concepts of materials inverse design and the challenges faced by machine learning-based approaches to materials inverse design.Then,three main inverse design methods—exploration-based,model-based,and optimization-based—are analyzed in the context of different application scenarios.Finally,the applications of inverse design methods in alloys,optical materials,and acoustic materials are elaborated on,and the prospects for materials inverse design are discussed.The authors hope to accelerate the discovery of new materials and provide new possibilities for advancing materials science and innovative design methods.展开更多
During Donald Trump’s first term,the“Trump Shock”brought world politics into an era of uncertainties and pulled the transatlantic alliance down to its lowest point in history.The Trump 2.0 tsunami brewed by the 202...During Donald Trump’s first term,the“Trump Shock”brought world politics into an era of uncertainties and pulled the transatlantic alliance down to its lowest point in history.The Trump 2.0 tsunami brewed by the 2024 presidential election of the United States has plunged the U.S.-Europe relations into more gloomy waters,ushering in a more complex and turbulent period of adjustment.展开更多
The research and development of new traditional Chinese medicine(TCM)drugs have progressively established a novel system founded on the integration of TCM theory,human experience,and clinical trials(termed the“Three ...The research and development of new traditional Chinese medicine(TCM)drugs have progressively established a novel system founded on the integration of TCM theory,human experience,and clinical trials(termed the“Three Combinations”).However,considering TCM's distinctive features of“syndrome differentiation and treatment”and“multicomponent formulations and complex mechanisms”,current TCM drug development faces challenges such as insufficient understanding of the material basis and the overall mechanism of action and an incomplete evidence chain system.Moreover,significant obstacles persist in gathering human experience data,evaluating clinical efficacy,and controlling the quality of active ingredients,which impede the innovation process in TCM drug development.Network pharmacology,centered on the“network targets”theory,transcends the limitations of the conventional“single target”reductionist research model.It emphasizes the comprehensive effects of disease or syndrome biological networks as targets to elucidate the overall regulatory mechanism of TCM prescriptions.This approach aligns with the holistic perspective of TCM,offering a novel method consistent with TCM's holistic view for investigating the complex mechanisms of TCM and developing new TCM drugs.It is internationally recognized as a“next-generation drug research model”.To advance the research of new tools,methods,and standards for TCM evaluation and to overcome fundamental,critical,and cutting-edge technical challenges in TCM regulation,this consensus aims to explore the characteristics,progress,challenges,applicable pathways,and specific applications of network pharmacology as a new theory,method,and tool in TCM drug development.The goal is to enhance the quality of TCM drug research and development and accelerate the efficiency of developing new TCM products.展开更多
文摘T his summer,the central dance floor of New York’s Lincoln Center came alive as thousands of audience members moved to the rhythm of Da Zhan Hong Tu(Blueprint Supreme).The song's performer,young rapper Chen Xukai,also known by his stage names Lan Lao and SKAI ISYOURGOD,is from China's Guangdong Province,and had more than 3 million listeners this July on Spotify,the global streaming giant.
文摘South Korean President Lee Jae-myung's state visit to China signals a strategic recalibration of China-South Korea relations,aiming to restore high-level dialogues,rebuild political trust and forge new economic cooperation amid shifting regional dynamics.
文摘BEIJING,Jan.2(Xinhua)-Every year on New Year's Eve,Chinese President Xi Jinping delivers his New Year greetings to the Chinese people from his office,with the Great Wall,a symbol of the Chinese nation’s resilience and heritage,depicted the backdrop.
文摘On December 26,2025 China announced plans to begin the zero-carbon transformation of 52 industrial parks across the country.This first batch of parks span sectors such as new energy,advanced manufactur-ing and computing.The list ensures every province,autonomous region,and municipality has at least one designated park,with transforma-tion set for completion by 2030.
文摘BEIJING,Dec.31(Xinhua)-On New Year's Eve,Chinese President Xi Jinping delivered his 2026 New Year message through China Media Group and the Internet.The following is the full text of the message:Greetings to all!Year after year,life opens a fresh chapter.As the new year begins,I extend my best wishes to you from Beijing!
文摘主题语境:人与社会——传统节日,家人团圆Before I came to China,I thought I knew about the Spring Festival,or“Chinese New Year”as we commonly call it in English.We learned to say“Gong Xi Fa Cai(恭喜发财)”in school and saw pictures of red lanterns and firecrackers(爆竹)。
基金financially supported by the Talent Initiation Fund of Wuxi University(550220008).
文摘With the increasing integration of renewable energy,microgrids are increasingly facing stability challenges,primarily due to the lack of inherent inertia in inverter-dominated systems,which is traditionally provided by synchronous generators.To address this critical issue,Virtual Synchronous Generator(VSG)technology has emerged as a highly promising solution by emulating the inertia and damping characteristics of conventional synchronous generators.To enhance the operational efficiency of virtual synchronous generators(VSGs),this study employs smallsignal modeling analysis,root locus methods,and synchronous generator power-angle characteristic analysis to comprehensively evaluate how virtual inertia and damping coefficients affect frequency stability and power output during transient processes.Based on these analyses,an adaptive control strategy is proposed:increasing the virtual inertia when the rotor angular velocity undergoes rapid changes,while strengthening the damping coefficient when the speed deviation exceeds a certain threshold to suppress angular velocity oscillations.To validate the effectiveness of the proposed method,a grid-connected VSG simulation platform was developed inMATLAB/Simulink.Comparative simulations demonstrate that the proposed adaptive control strategy outperforms conventional VSGmethods by significantly reducing grid frequency deviations and shortening active power response time during active power command changes and load disturbances.This approach enhances microgrid stability and dynamic performance,confirming its viability for renewable-dominant power systems.Future work should focus on experimental validation and real-world parameter optimization,while further exploring the strategy’s effectiveness in improvingVSG low-voltage ride-through(LVRT)capability and power-sharing applications in multi-parallel configurations.
文摘Greetings to all!Year after year,life opens a fresh chapter.As the new year begins,I extend my best wishes to you from Beijing!The year 2025 marks the completion of China's 14th Five-Year Plan(2021-25)for economic and social development.
文摘Enhancing innovation-driven develop ment to accelerate the cultivation of new growth drivers is one of the major strate-gic tasks for China's economic work in 2026.In the context of the rapid global acceleration of technological develop ment and strong pushes from the West toward de-globalization and protection-ism,China’s efforts will require the continued deep integration of technology with its institutions,personnel,culture and market.
文摘Adult neurogenesis is a highly dynamic process that leads to the production of new neurons from a population of quiescent neural stem cells(NSCs).In response to specific endogenous and/or external stimuli,NSCs enter a state of mitotic activation,initiating proliferation and differentiation pathways.Throughout this process,NSCs give rise to neural progenitors,which undergo multiple replicative and differentiative steps,each governed by precise molecular pathways that coordinate cellular changes and signals from the surrounding neurogenic niche.
基金supported by Science and Technology Project of the headquarters of the State Grid Corporation of China(No.5500-202324492A-3-2-ZN).
文摘To enhance power flow regulation in scenarios involving large-scale renewable energy transmission via high-voltage direct current(HVDC)links and multi-infeed DC systems in load-center regions,this paper proposes a hybrid modular multilevel converter–capacitor-commutated line-commutated converter(MMC-CLCC)HVDC transmission system and its corresponding control strategy.First,the system topology is constructed,and a submodule configuration method for the MMC—combining full-bridge submodules(FBSMs)and half-bridge submodules(HBSMs)—is proposed to enable direct power flow reversal.Second,a hierarchical control strategy is introduced,includingMMCvoltage control,CLCC current control,and a coordinationmechanism,along with the derivation of the hybrid system’s power flow reversal characteristics.Third,leveraging the CLCC’s fast current regulation and theMMC’s negative voltage control capability,a coordinated power flow reversal control strategy is developed.Finally,an 800 kV MMC-CLCC hybrid HVDC system is modeled in PSCAD/EMTDC to validate the power flow reversal performance under a high proportion of full-bridge submodule configuration.Results demonstrate that the proposed control strategy enables rapid(1-s transition)and smooth switching of bidirectional power flow without modifying the structure of primary equipment:the transient fluctuation ofDC voltage from the rated value(UdcN)to themaximumreverse voltage(-kUdcN)is less than 5%;the DC current strictly follows the preset characteristic curve with a deviation of≤3%;the active power reverses continuously,and the system maintains stable operation throughout the reversal process.
文摘Background Recently,new anti-epileptic drugs (AEDs) have been more frequently selected to treat epilepsy.In the present study,we evaluated the dynamic changes of efficacy and safety of three newer AEDs for treating partial epilepsy in China.Methods Patients were collected sequentially and were divided into three groups which accepted oxcarbazepine (OXC),lamotrigine (LTG) or topiramate (TPM) therapy.Each group included monotherapy and add-on therapy subgroups.We followed all patients for one year and recorded the indexes of efficacy and safety in detail.Results A total of 909 patients finished the follow-up observation.No significant difference was found in proportion of patients with 〉 or =50% reduction,〉 or =75% reduction and 100% seizure reduction in the LTG and OXC groups between the first and the second six months.In the TPM group there was a statistical difference between the first and the second six months in proportion of patients with 〉 or =50% reduction (P=-0.002),〉 or =75% reduction (P 〈0.0001) and 100% seizure reduction (P=0.009) in the monotherapy subgroup,and about 〉 or =75% reduction and 100% seizure reduction in the add-on therapy subgroup (P 〈0.0001).The efficacy between the add-on and monotherapy subgroups showed a statistical difference.The safety of the three newer AEDs was good.Conclusions The three newer AEDs all showed good efficacy and tolerability for partial epilepsy.And the efficacy can be maintained for at least one year.
文摘Three new wood-rotting fungi Peniophorella growing on Pinus yunnanensis in southwestern China,Peniophorella euryhypha,Peniophorella pinicola and Peniophorella stellata,are described based on morphology and phylogeny.They all have annual resupinate basidiomata with smooth,white to cream hymenophore and clavate to cylindrical leptocystidia without resinous matter.P.euryhypha is characterized by simple septate subicular hyphae 7.5-9.5μm wide and broadly clavate to sphaeropedunculate cystidia,narrowly ellipsoid basidiospores 9.3-11×3-4.3μm.P.pinicola is characterized by encrusted hyphae and bowl-shaped stephanocysts and thick-walled cystidia,oblong-ellipsoid basidiospores 5.5-8×3.2-5μm.P.stellata is characterized by leptocystidia and sometimes hyphidia encrusted with rosette-like crystals in subhymenium and hymenium,and oblong-ellipsoid basidiospores 8-10×3.5-5μm.In addition,Peniophorella cremea is considered as a synonym of Hyphoderma transiens.A key to Chinese species of Peniophorella is provided.
基金Supported by the Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX24_0102)the China Scholarship Council Program(202406190114)。
文摘Studying the coupling coordination development of new energy vehicles(NEVs)and the ecological environment in China is helpful in promoting the development of NEVs in the country and is of great significance in promoting high-quality development of new energy in China.This paper constructs an evaluation index system for the development of NEVs and the ecological environment.It uses game theory combining weighting model,particle swarm optimized projection tracking evaluation model,coupling coordination degree model,and machine learning algorithms to calculate and analyze the level of coupling coordination development of NEVs and the ecological environment in China from 2010 to 2021,and identifies the driving factors.The research results show that:(i)From 2010 to 2021,the development index of NEVs in China has steadily increased from 0.085 to 0.634,while the ecological environment level index significantly rose from 0.170 to 0.884,reflecting the continuous development of China in both NEVs and the ecological environment.(ii)From 2010 to 2012,the two systems—new energy vehicle(NEV)development and the ecological environment—were in a period of imbalance and decline.From 2013 to 2016,they underwent a transition period,and from 2017 to 2021,they entered a period of coordinated development showing a trend of benign and continuous improvement.By 2021,they reached a good level of coordination.(iii)Indicators such as the number of patents granted for NEVs,water consumption per unit of GDP,and energy consumption per unit of GDP are the main driving factors affecting the coupling coordination development of NEVs and the ecological environment in China.
基金Supported by the National Natural Science Foundation of China(U22B6002)PetroChina Science and Technology Project(2023ZZ14).
文摘Significant exploration progress has been made in ultra-deep clastic rocks in the Kuqa Depression,Tarim Basin,over recent years.A new round of comprehensive geological research has formed four new understandings:(1)Establish structural model consisting of multi-detachment composite,multi-stage structural superposition and multi-layer deformation.Multi-stage structural traps are overlapped vertically,and a series of structural traps are discovered in underlying ultra-deep layers.(2)Five sets of high-quality large-scale source rocks of three types of organic phases are developed in the Triassic and Jurassic systems,and forming a good combination of source-reservoir-cap rocks in ultra-deep layers with three sets of large-scale regional reservoir and cap rocks.(3)The formation of large oil and gas fields is controlled by four factors which are source,reservoir,cap rocks and fault.Based on the spatial configuration relationship of these four factors,a new three-dimensional reservoir formation model for ultra-deep clastic rocks in the Kuqa Depression has been established.(4)The next key exploration fields for ultra-deep clastic rocks in the Kuqa Depression include conventional and unconventional oil and gas.The conventional oil and gas fields include the deep multi-layer oil-gas accumulation zone in Kelasu,tight sandstone gas of Jurassic Ahe Formation in the northern structural zone,multi-target layer lithological oil and gas reservoirs in Zhongqiu–Dina structural zone,lithologic-stratigraphic and buried hill composite reservoirs in south slope and other favorable areas.Unconventional oil and gas fields include deep coal rock gas of Jurassic Kezilenuer and Yangxia formations,Triassic Tariqike Formation and Middle-Lower Jurassic and Upper Triassic continental shale gas.The achievements have important reference significance for enriching the theory of ultra-deep clastic rock oil and gas exploration and guiding the future oil and gas exploration deployment.
基金funded by theNationalNatural Science Foundation of China(52061020)Major Science and Technology Projects in Yunnan Province(202302AG050009)Yunnan Fundamental Research Projects(202301AV070003).
文摘Finding materials with specific properties is a hot topic in materials science.Traditional materials design relies on empirical and trial-and-error methods,requiring extensive experiments and time,resulting in high costs.With the development of physics,statistics,computer science,and other fields,machine learning offers opportunities for systematically discovering new materials.Especially through machine learning-based inverse design,machine learning algorithms analyze the mapping relationships between materials and their properties to find materials with desired properties.This paper first outlines the basic concepts of materials inverse design and the challenges faced by machine learning-based approaches to materials inverse design.Then,three main inverse design methods—exploration-based,model-based,and optimization-based—are analyzed in the context of different application scenarios.Finally,the applications of inverse design methods in alloys,optical materials,and acoustic materials are elaborated on,and the prospects for materials inverse design are discussed.The authors hope to accelerate the discovery of new materials and provide new possibilities for advancing materials science and innovative design methods.
文摘During Donald Trump’s first term,the“Trump Shock”brought world politics into an era of uncertainties and pulled the transatlantic alliance down to its lowest point in history.The Trump 2.0 tsunami brewed by the 2024 presidential election of the United States has plunged the U.S.-Europe relations into more gloomy waters,ushering in a more complex and turbulent period of adjustment.
基金supported by the National Medical Products Administration Commissioned Research Project (No.20211440216)the National Administration of Traditional Chinese Medicine Science and Technology Project (No.GZY-KJS-2024-03)+3 种基金the State Key Laboratory of Drug Regulatory Science Project (No.2023SKLDRS0104)the Basic Research Program Natural Science Fund-Frontier Leading Technology Basic Research Special Project of Jiangsu Province (No.BK20232014)the Programs Foundation for Leading Talents in National Administration of Traditional Chinese Medicine of China“Qihuang scholars”Projectthe Tianjin Administration for Market Regulation Science and Technology Key Projects (No.2022-W35)。
文摘The research and development of new traditional Chinese medicine(TCM)drugs have progressively established a novel system founded on the integration of TCM theory,human experience,and clinical trials(termed the“Three Combinations”).However,considering TCM's distinctive features of“syndrome differentiation and treatment”and“multicomponent formulations and complex mechanisms”,current TCM drug development faces challenges such as insufficient understanding of the material basis and the overall mechanism of action and an incomplete evidence chain system.Moreover,significant obstacles persist in gathering human experience data,evaluating clinical efficacy,and controlling the quality of active ingredients,which impede the innovation process in TCM drug development.Network pharmacology,centered on the“network targets”theory,transcends the limitations of the conventional“single target”reductionist research model.It emphasizes the comprehensive effects of disease or syndrome biological networks as targets to elucidate the overall regulatory mechanism of TCM prescriptions.This approach aligns with the holistic perspective of TCM,offering a novel method consistent with TCM's holistic view for investigating the complex mechanisms of TCM and developing new TCM drugs.It is internationally recognized as a“next-generation drug research model”.To advance the research of new tools,methods,and standards for TCM evaluation and to overcome fundamental,critical,and cutting-edge technical challenges in TCM regulation,this consensus aims to explore the characteristics,progress,challenges,applicable pathways,and specific applications of network pharmacology as a new theory,method,and tool in TCM drug development.The goal is to enhance the quality of TCM drug research and development and accelerate the efficiency of developing new TCM products.
