In early December 2019,a new virus named“2019 novel coronavirus(2019-nCoV)”appeared in Wuhan,China.The disease quickly spread worldwide,resulting in the COVID-19 pandemic.In the currentwork,we will propose a novel f...In early December 2019,a new virus named“2019 novel coronavirus(2019-nCoV)”appeared in Wuhan,China.The disease quickly spread worldwide,resulting in the COVID-19 pandemic.In the currentwork,we will propose a novel fuzzy softmodal(i.e.,fuzzy-soft expert system)for early detection of COVID-19.Themain construction of the fuzzy-soft expert systemconsists of five portions.The exploratory study includes sixty patients(i.e.,fortymales and twenty females)with symptoms similar to COVID-19 in(Nanjing Chest Hospital,Department of Respiratory,China).The proposed fuzzy-soft expert systemdepended on five symptoms of COVID-19(i.e.,shortness of breath,sore throat,cough,fever,and age).We will use the algorithm proposed by Kong et al.to detect these patients who may suffer from COVID-19.In this way,the present system is beneficial to help the physician decide if there is any patient who has COVID-19 or not.Finally,we present the comparison between the present system and the fuzzy expert system.展开更多
Hepatocellular carcinoma(HCC)is the most common fatal cancer worldwide,patients with HCC have a high mortality rate and poor prognosis.PANoptosis is a novel discovery of programmed cell death associated with cancer de...Hepatocellular carcinoma(HCC)is the most common fatal cancer worldwide,patients with HCC have a high mortality rate and poor prognosis.PANoptosis is a novel discovery of programmed cell death associated with cancer development.However,the role of PANoptosis in HCC remains obscure.In this study,we enrolled 274 PANoptosisrelated genes(PANRGs)and screened 8 genes to set up a prognostic model.A previous scoring system calculated PANscore was utilized to quantify the individual risk level of each HCC patient,and the reliability of the prognostic model has been validated in an external cohort.Nomogram constructed with PANscore and clinical characteristics were used to optimize individualized treatment for each patient.Single-cell analysis revealed a PANoptosis model associated with tumor immune cell infiltration,particularly natural killer(NK)cells.Further exploration of hub genes and assessment of the prognostic role of these 4 hub genes in HCC by quantitative real-time PCR(qRT-PCR)and immunohistochemistry(IHC).In conclusion,we evaluated a PANoptosis-based prognostic model as a potential prognostic biomarker for HCC patients.展开更多
Vanadium-based cathodes have attracted great interest in aqueous zinc ion batteries(AZIBs)due to their large capacities,good rate performance and facile synthesis in large scale.However,their practical application is ...Vanadium-based cathodes have attracted great interest in aqueous zinc ion batteries(AZIBs)due to their large capacities,good rate performance and facile synthesis in large scale.However,their practical application is greatly hampered by vanadium dissolution issue in conventional dilute electrolytes.Herein,taking a new potassium vanadate K0.486V2O5(KVO)cathode with large interlayer spacing(~0.95 nm)and high capacity as an example,we propose that the cycle life of vanadates can be greatly upgraded in AZIBs by regulating the concentration of ZnCl2 electrolyte,but with no need to approach“water-in-salt”threshold.With the optimized moderate concentration of 15 m ZnCl2 electrolyte,the KVO exhibits the best cycling stability with ~95.02% capacity retention after 1400 cycles.We further design a novel sodium carboxymethyl cellulose(CMC)-moderate concentration ZnCl2 gel electrolyte with high ionic conductivity of 10.08 mS cm^-1 for the first time and assemble a quasi-solid-state AZIB.This device is bendable with remarkable energy density(268.2 Wh kg^−1),excellent stability(97.35% after 2800 cycles),low self-discharge rate,and good environmental(temperature,pressure)suitability,and is capable of powering small electronics.The device also exhibits good electrochemical performance with high KVO mass loading(5 and 10 mg cm^-2).Our work sheds light on the feasibility of using moderately concentrated electrolyte to address the stability issue of aqueous soluble electrode materials.展开更多
The adsorption of peroxymonosulfate(PMS)is crucial for PMS activation in the heterogeneous advanced oxidation processes.However,the investigation of PMS adsorption on the piezocatalysts still remains insufficient.In t...The adsorption of peroxymonosulfate(PMS)is crucial for PMS activation in the heterogeneous advanced oxidation processes.However,the investigation of PMS adsorption on the piezocatalysts still remains insufficient.In this work,bismuth oxychloride(BiO Cl)nanosheets were prepared as the piezocatalysts for PMS activation under ultrasonic vibration to remove carbamazepine(CBZ)in aqueous solutions.Up to92.5%of CBZ was degraded for 40 min in Bi OCl piezo-activated PMS system with the reaction rate constant of 0.0741 min-1,being 1.63 times that of the sum of BiOCl piezocatalysis,BiOCl-activated PMS,and vibration-activated PMS.PMS adsorption on the surface of BiOCl was specifically studied by comparing the microscopic structure change of the fresh and used Bi OCl.The results suggested that the piezoelectric field of Bi OCl was able to promote the tight adsorption of PMS on the surface,thus facilitating the fast activation of PMS through electrons transfer to produce reactive species(HO·,SO_(4)·-,O_(2)·-,1O_(2)).This work presents an in-depth understanding for the role of piezoelectric effect on the adsorption and activation of PMS.展开更多
Potassium-ion batteries(PIBs)have attracted enormous attention due to the abundance of potassium resources,low cost,fast ionic conductivity of electrolyte and relatively high operating voltage.Despite great effo rts a...Potassium-ion batteries(PIBs)have attracted enormous attention due to the abundance of potassium resources,low cost,fast ionic conductivity of electrolyte and relatively high operating voltage.Despite great effo rts and progress,researches on PIBs are still at the initial stage,especially in the emerging field of flexible and wearable PIBs.The inevitable challenges for PIBs include low reversible capacity,unsatisfactory cycling stability and insufficient energy density,the solution to which mostly relies on designing adva nced electrodes.Binder-free electrodes have emerged as promising electrode architecture for PIBs.Such electrodes avoid the use of insulating binders,which can be designed with various synergistic functional materials to address the aforementioned PIB issues and be endowed with flexibility/wearability.In this review,we mainly summarize the recent progress on binde r-free electrodes for PIBs,with the focus on the methodologies,detailed strategies and functional materials for electrode construction.One strategy for binder-free electrodes is to assemble free-standing architecture with the help of carbon nanotubes(CNTs),graphitic fibers,and other carbon or mechanically robust materials,either alone or in combination.The other effective strategy is current collector substrate-assisted direct growth,including the use of carbon cloth,metal.MXenes and other conductive substrates.Additionally,challenges and research opportunities are put forward at the end as the guidance for future development of binder-free PIB devices.展开更多
As a consumer product,black chokeberry(Aronia melanocarpa)is diffi cult to consume due to its pungent taste.It is mainly used in various food industries to produce a variety of juices,preserves,extracts,fruit teas and...As a consumer product,black chokeberry(Aronia melanocarpa)is diffi cult to consume due to its pungent taste.It is mainly used in various food industries to produce a variety of juices,preserves,extracts,fruit teas and nutritional supplements.Traditionally,Potawatomi Native Americans used black chokeberry to treat colds,coughs and fever.It has been found to contain numerous active ingredients.Currently,there are many health and medical products that contain black chokeberry.The purpose of this review is to understand the nutritional benefi ts of black chokeberry and to explore its benefi cial effects on biological systems in vitro,thereby emphasizing its therapeutic prospects.展开更多
文摘In early December 2019,a new virus named“2019 novel coronavirus(2019-nCoV)”appeared in Wuhan,China.The disease quickly spread worldwide,resulting in the COVID-19 pandemic.In the currentwork,we will propose a novel fuzzy softmodal(i.e.,fuzzy-soft expert system)for early detection of COVID-19.Themain construction of the fuzzy-soft expert systemconsists of five portions.The exploratory study includes sixty patients(i.e.,fortymales and twenty females)with symptoms similar to COVID-19 in(Nanjing Chest Hospital,Department of Respiratory,China).The proposed fuzzy-soft expert systemdepended on five symptoms of COVID-19(i.e.,shortness of breath,sore throat,cough,fever,and age).We will use the algorithm proposed by Kong et al.to detect these patients who may suffer from COVID-19.In this way,the present system is beneficial to help the physician decide if there is any patient who has COVID-19 or not.Finally,we present the comparison between the present system and the fuzzy expert system.
基金This study was supported by grants from the Central Guidance on Local Science and Technology Development Fund of HeBei Province(226Z7705G)Hebei Natural Science Foundation(H2020206458,H2020206513 and H2022206552)+1 种基金Science and Technology Research Project of Colleges and Universities in Hebei Province(ZD2021074 and ZD2022143)2022 Introduction of Foreign Intellectual Property Project in Hebei Province(SWZYCYZ202001).
文摘Hepatocellular carcinoma(HCC)is the most common fatal cancer worldwide,patients with HCC have a high mortality rate and poor prognosis.PANoptosis is a novel discovery of programmed cell death associated with cancer development.However,the role of PANoptosis in HCC remains obscure.In this study,we enrolled 274 PANoptosisrelated genes(PANRGs)and screened 8 genes to set up a prognostic model.A previous scoring system calculated PANscore was utilized to quantify the individual risk level of each HCC patient,and the reliability of the prognostic model has been validated in an external cohort.Nomogram constructed with PANscore and clinical characteristics were used to optimize individualized treatment for each patient.Single-cell analysis revealed a PANoptosis model associated with tumor immune cell infiltration,particularly natural killer(NK)cells.Further exploration of hub genes and assessment of the prognostic role of these 4 hub genes in HCC by quantitative real-time PCR(qRT-PCR)and immunohistochemistry(IHC).In conclusion,we evaluated a PANoptosis-based prognostic model as a potential prognostic biomarker for HCC patients.
基金supported by grants from the National Natural Science Foundation of China(Grant Nos.51872104,51972257 and 51672205)the National Key R&D Program of China(Grant No.2016YFA0202602)the Natural Science Foundation of Hubei Province(2018CFB581).
文摘Vanadium-based cathodes have attracted great interest in aqueous zinc ion batteries(AZIBs)due to their large capacities,good rate performance and facile synthesis in large scale.However,their practical application is greatly hampered by vanadium dissolution issue in conventional dilute electrolytes.Herein,taking a new potassium vanadate K0.486V2O5(KVO)cathode with large interlayer spacing(~0.95 nm)and high capacity as an example,we propose that the cycle life of vanadates can be greatly upgraded in AZIBs by regulating the concentration of ZnCl2 electrolyte,but with no need to approach“water-in-salt”threshold.With the optimized moderate concentration of 15 m ZnCl2 electrolyte,the KVO exhibits the best cycling stability with ~95.02% capacity retention after 1400 cycles.We further design a novel sodium carboxymethyl cellulose(CMC)-moderate concentration ZnCl2 gel electrolyte with high ionic conductivity of 10.08 mS cm^-1 for the first time and assemble a quasi-solid-state AZIB.This device is bendable with remarkable energy density(268.2 Wh kg^−1),excellent stability(97.35% after 2800 cycles),low self-discharge rate,and good environmental(temperature,pressure)suitability,and is capable of powering small electronics.The device also exhibits good electrochemical performance with high KVO mass loading(5 and 10 mg cm^-2).Our work sheds light on the feasibility of using moderately concentrated electrolyte to address the stability issue of aqueous soluble electrode materials.
基金financially supported by the National Natural Science Foundation of China(No.22006052)the Science and Technology Program of Guangzhou,China(No.202201020545)。
文摘The adsorption of peroxymonosulfate(PMS)is crucial for PMS activation in the heterogeneous advanced oxidation processes.However,the investigation of PMS adsorption on the piezocatalysts still remains insufficient.In this work,bismuth oxychloride(BiO Cl)nanosheets were prepared as the piezocatalysts for PMS activation under ultrasonic vibration to remove carbamazepine(CBZ)in aqueous solutions.Up to92.5%of CBZ was degraded for 40 min in Bi OCl piezo-activated PMS system with the reaction rate constant of 0.0741 min-1,being 1.63 times that of the sum of BiOCl piezocatalysis,BiOCl-activated PMS,and vibration-activated PMS.PMS adsorption on the surface of BiOCl was specifically studied by comparing the microscopic structure change of the fresh and used Bi OCl.The results suggested that the piezoelectric field of Bi OCl was able to promote the tight adsorption of PMS on the surface,thus facilitating the fast activation of PMS through electrons transfer to produce reactive species(HO·,SO_(4)·-,O_(2)·-,1O_(2)).This work presents an in-depth understanding for the role of piezoelectric effect on the adsorption and activation of PMS.
基金supported by the National Natural Science Foundation of China(Nos.51972257,51672205 and 51872104)the National Key R&D Program of China(No.2016YFA0202602)。
文摘Potassium-ion batteries(PIBs)have attracted enormous attention due to the abundance of potassium resources,low cost,fast ionic conductivity of electrolyte and relatively high operating voltage.Despite great effo rts and progress,researches on PIBs are still at the initial stage,especially in the emerging field of flexible and wearable PIBs.The inevitable challenges for PIBs include low reversible capacity,unsatisfactory cycling stability and insufficient energy density,the solution to which mostly relies on designing adva nced electrodes.Binder-free electrodes have emerged as promising electrode architecture for PIBs.Such electrodes avoid the use of insulating binders,which can be designed with various synergistic functional materials to address the aforementioned PIB issues and be endowed with flexibility/wearability.In this review,we mainly summarize the recent progress on binde r-free electrodes for PIBs,with the focus on the methodologies,detailed strategies and functional materials for electrode construction.One strategy for binder-free electrodes is to assemble free-standing architecture with the help of carbon nanotubes(CNTs),graphitic fibers,and other carbon or mechanically robust materials,either alone or in combination.The other effective strategy is current collector substrate-assisted direct growth,including the use of carbon cloth,metal.MXenes and other conductive substrates.Additionally,challenges and research opportunities are put forward at the end as the guidance for future development of binder-free PIB devices.
基金funded by the Key R&D Program of the Ministry of Science and Technology(SQ2020YFF0422819)Jilin Traditional Chinese Medicine Science and Technology Project(2020141).
文摘As a consumer product,black chokeberry(Aronia melanocarpa)is diffi cult to consume due to its pungent taste.It is mainly used in various food industries to produce a variety of juices,preserves,extracts,fruit teas and nutritional supplements.Traditionally,Potawatomi Native Americans used black chokeberry to treat colds,coughs and fever.It has been found to contain numerous active ingredients.Currently,there are many health and medical products that contain black chokeberry.The purpose of this review is to understand the nutritional benefi ts of black chokeberry and to explore its benefi cial effects on biological systems in vitro,thereby emphasizing its therapeutic prospects.
