In this study,the entropy weight method was used to measure the agricultural versatility of 30 provinces in China(excluding Tibet,Hong Kong region,Macao region,and Taiwan region of China)from 2008 to 2019.In addition,...In this study,the entropy weight method was used to measure the agricultural versatility of 30 provinces in China(excluding Tibet,Hong Kong region,Macao region,and Taiwan region of China)from 2008 to 2019.In addition,the Theil index method and kernel density estimation were used to analyze the spatiotemporal characteristics of the agricultural versatility in each province.The results show that the agricultural product supply and social security functions rapidly developed,but the economic development was weak.From 2008 to 2019,the total functional index of agriculture increased by 6.74%;the functional index of the agricultural product supply,social security,and ecological services increased by 12.72%,5.53%,and 2.05%,respectively;and the functional index of economic development decreased by 1.32%.The development of agricultural multifunctions in China is regionally heterogeneous.Based on the Theil index method,the differences in the agricultural functions of the three regions are mainly due to intragroup differences.The contribution of intragroup differences of the eight economic regions is significantly lower than that of the three regions.However,intragroup differences dominate the agricultural product supply,economic development,and social security functions and intergroup differences control the ecological service function.The kernel density estimation curve shows that the overall agricultural functional evaluation index increased,among which the agricultural product supply function increased the most.展开更多
Peroxisomes are small,highly dynamic,and multifunctional organelles in eukaryotes.Essential to plant survival,peroxisomes house various crucial metabolic activities,such as degradation of hydrogen peroxide(H2O2),lipid...Peroxisomes are small,highly dynamic,and multifunctional organelles in eukaryotes.Essential to plant survival,peroxisomes house various crucial metabolic activities,such as degradation of hydrogen peroxide(H2O2),lipid metabolism,photorespiration,and hormone biosynthesis and catabolism,and remodel their proteome in response to developmental and environmental changes(Hu et al.2012;Pan and Hu 2018).The four reviews and three research articles in this special issue on plant peroxisomes provide new insights into the diverse roles and dynamics of these structurally simple but functionally complicated organelles,raising exciting new questions for future investigations.展开更多
Exploring efficient catalyst is critical for the application of persulfate-based advanced oxidation processes(AOPs)for environment remediation.Herein,perovskite CoTiO_(3)was demonstrated an efficient catalyst for pero...Exploring efficient catalyst is critical for the application of persulfate-based advanced oxidation processes(AOPs)for environment remediation.Herein,perovskite CoTiO_(3)was demonstrated an efficient catalyst for peroxymonosulfate(PMS)activation,which shows superior performance compared with single metal oxide system and homogenous systems:It removes 98.2%of hydroxychloroquine(HCQ,drugs for effective treatment of COVID-19)within 20 min at low dose of PMS(0.5 mmol/L),showing high tolerance to the environmental p H range(3.5–10.6)and significant versatility for various refractory organics.Combined with the material characterization and DFT calculations,it is found Co–O–Ti bond in CoTiO_(3)serves as an electron mediator to facilitate the rapid redox cycles of Co^(2+)/Co^(3+)during activation process,thus maintaining the high catalytic activity.Further mechanism exploration showed that fast regeneration of Co^(2+)ensures the production of high concentration of SO_(4)·-and·OH,thus securing the rapid degradation of HCQ.Moreover,a designed CoTiO_(3)-CNT-PVDF membrane reactor can effectively remove refractory pollutant via practically feasible filter-through mode,which delivers a highest removal efficiency and longest operation duration compared with previous developed membrane-based AOPs.The corresponding mechanism revealed in this work can serve as guidelines for the design of advanced heterogenous catalysts and membrane reactors for AOPs.展开更多
Flexible photodetectors have garnered significant attention by virtue of their potential applications in environmental monitoring,wearable healthcare,imaging sensing,and portable optical communications.Perovskites sta...Flexible photodetectors have garnered significant attention by virtue of their potential applications in environmental monitoring,wearable healthcare,imaging sensing,and portable optical communications.Perovskites stand out as particularly promising materials for photodetectors,offering exceptional optoelectronic properties,tunable band gaps,low-temperature solution processing,and notable mechanical flexibility.In this review,we explore the latest progress in flexible perovskite photodetectors,emphasizing the strategies developed for photoactive materials and device structures to enhance optoelectronic performance and stability.Additionally,we discuss typical applications of these devices and offer insights into future directions and potential applications.展开更多
Throughout versatile metal compositions and unique structural characteristics,polynary metal atom catalysts(PACs)readily harness synergistic intermetallic effects,significantly boosting the catalytic performances.Thes...Throughout versatile metal compositions and unique structural characteristics,polynary metal atom catalysts(PACs)readily harness synergistic intermetallic effects,significantly boosting the catalytic performances.These catalysts are featured by favorable catalytic activity,stability and selectivity,offering avenues to tackle challenges in energy conversion,environmental protection and chemical synthesis.Nevertheless,an in-depth understanding and comprehensive summary of the structure-performance relationship for the emerging PACs remains elusive.This review embarks from the classification of PACs,delving further into the origins of catalytic activity and mechanisms underpinning performance enhancement.At the beginning,it outlines the fundamental concepts,preparation methods and accurate recognition of PACs.Subsequently,it centers on discussing the origins of activity,strategies for performance optimization,mechanisms of action,and application scenarios across diverse catalytic reactions.Moreover,the unexplored issues and future perspectives of PACs are proposed at the end,stating their pivotal roles in advancing green chemistry and the sustainable energy realm.This review overall aims to provide valuable insight and guidance for the preparation and application of PACs.展开更多
BACKGROUND We have innovatively amalgamated membrane blood purification and centrifugal blood cell separation technologies to address the limitations of current artificial liver support(ALS)models,and develop a versat...BACKGROUND We have innovatively amalgamated membrane blood purification and centrifugal blood cell separation technologies to address the limitations of current artificial liver support(ALS)models,and develop a versatile plasma purification system(VPPS)through centrifugal plasma separation.AIM To investigate the influence of VPPS on long-term rehospitalization and mortality rates among patients with acute-on-chronic liver failure(ACLF).METHODS This real-world,prospective study recruited inpatients diagnosed with ACLF from the Second Xiangya Hospital of Central South University between October 2021 and March 2024.Patients were categorized into the VPPS and non-VPPS groups based on the distinct ALS models administered to them.Self-administered questionnaires,clinical records,and self-reported data served as the primary methods for data collection.The laboratory results were evaluated at six distinct time points.All patients were subjected to follow-up assessments for>12 months.Kaplan-Meier survival analyses and Cox proportional hazards models were used to evaluate the risks of hospitalization and mortality during the follow-up period.RESULTS A cohort of 502 patients diagnosed with ACLF was recruited,with 260 assigned to the VPPS group.On comparing baseline characteristics,the VPPS group exhibited a significantly shorter length of stay,higher incidence of spontaneous peritonitis and pulmonary aspergillosis compared to the non-VPPS group(P<0.05).Agehazard ratio(HR=1.142,95%CI:1.01-1.23,P=0.018),peritonitis(HR=2.825,95%CI:1.07-6.382,P=0.026),albumin(HR=0.67,95%CI:0.46-0.942,P=0.023),total bilirubin(HR=1.26,95%CI:1.01-3.25,P=0.021),international normalized ratio(HR=1.97,95%CI:1.21-2.908,P=0.014),and VPPS/non-VPPS(HR=3.24,95%CI:2.152-4.76,P<0.001)were identified as significant independent predictors of mortality in both univariate and multivariate analyses throughout the follow-up period.Kaplan-Meier survival analyses demonstrated significantly higher rehospitalization and mortality rates in the non-VPPS group compared to the VPPS group during follow-up of≥2 years(log-rank test,P<0.001).CONCLUSION These findings suggest that VPPS is safe and has a positive influence on prognostic outcomes in patients with ACLF.展开更多
Paper and pulp mills generate substantial volumes of wastewater containing lignin-derived compounds that are challenging to degrade using conventional wastewater treatment methods.This study presents a novel biofilm-b...Paper and pulp mills generate substantial volumes of wastewater containing lignin-derived compounds that are challenging to degrade using conventional wastewater treatment methods.This study presents a novel biofilm-based process for enhanced lignin removal in wastewater using the fungus Neurospora discreta,which effectively degrades lignin and forms robust biofilms at the air–liquid interface under specific conditions.The process was optimised using the Taguchi design of experiments approach,and three factors including pH,copper sulphate concentration,and trace element concentration were evaluated at three levels.Experimental data were analysed against three responses:lignin degradation efficiency and the activities of two ligninolytic enzymes(polyphenol oxidase and versatile peroxidase).The results indicated that wastewater pH was the most significant parameter affecting lignin degradation efficiency and enzyme activities.Over 70%lignin degradation was achieved at pH levels of 5 and 6 with copper sulphate concentrations above 4 mg/L,while degradation efficiency drastically dropped to 45%at a pH value of 7.Reversed-phase high-performance liquid chromatography analysis demonstrated the effects of the three factors on the polar and non-polar components of lignin in wastewater,revealing a clear decrease in all peak areas after treatment.Additionally,significant relationships were observed between biofilm properties(including porosity,water retention value,polysaccharide content,and protein content)and lignin removal efficiency.This study also reported for the first time the presence of versatile peroxidase,a ligninolytic enzyme,in Neurospora sp.展开更多
With digital coding technology,reconfigurable intelligent surfaces(RISs)become powerful real-time sys-tems for manipulating electromagnetic(EM)waves.However,most automatic RIS designs involve exten-sive numerical simu...With digital coding technology,reconfigurable intelligent surfaces(RISs)become powerful real-time sys-tems for manipulating electromagnetic(EM)waves.However,most automatic RIS designs involve exten-sive numerical simulations of the unit,including the passive pattern and active devices,requiring high data acquisition and training costs.In addition,for passive patterns,the widely employed random pixe-lated method presents design efficiency and effectiveness challenges due to the massive pixel combina-tions and blocked excitation current flow in discrete patterns.To overcome these two critical problems,we propose a versatile RIS design paradigm with efficient topology representation and a separate design architecture.First,a non-uniform rational B-spline(NURBS)is introduced to represent continuous pat-terns and solve excitation current flow issues.This representation makes it possible to finely tune con-tinuous patterns with several control points,greatly reducing the pattern solution space by 20-fold and facilitating RIS optimization.Then,employing multiport network theory to separate the passive pat-tern and active device from the unit,the separate design architecture significantly reduces the dataset acquisition cost by 62.5%.Through multistep multiport calculation,the multistate EM responses of the RIS under different structural combinations can be quickly obtained with only one prediction of pattern response,thereby achieving dataset and model reuse for different RIS designs.With a hybrid continuous-discrete optimization algorithm,three examples—including two typical high-performance RISs and an ultra-wideband multilayer RIS—are provided to validate the superiority of our paradigm.Our work offers an efficient solution for RIS automatic design,and the resulting structure is expected to boost RIS appli-cations in the fields of wireless communication and sensing.展开更多
为了提高FPGA(Field Programmable Gate Array)的布通率并优化电路的连线长度,在模拟退火算法的基础上,该文提出一种新的FPGA布局算法。该算法在不同的温度区间采用不同的评价函数,高温阶段采用半周长法进行快速优化布局,低温阶段在...为了提高FPGA(Field Programmable Gate Array)的布通率并优化电路的连线长度,在模拟退火算法的基础上,该文提出一种新的FPGA布局算法。该算法在不同的温度区间采用不同的评价函数,高温阶段采用半周长法进行快速优化布局,低温阶段在评价函数中加入变量因子并进行适度的回火处理,以此来优化布局。实验表明,该算法提高了布通率,优化了连线长度,与最具代表性的VPR(Versatile Place and Route)布局算法相比布线通道宽度提高了近6%,电路总的连线长度降低了4-23%。展开更多
Metal halide perovskites are crystalline materials originally developed out of scientific curiosity. They have shown great potential as active materials in optoelectronic applications. In the last 6 years, their certi...Metal halide perovskites are crystalline materials originally developed out of scientific curiosity. They have shown great potential as active materials in optoelectronic applications. In the last 6 years, their certified photovoltaic efficiencies have reached 22.1%. Compared to bulk halide perovskites, low-dimensional ones exhibited novel physical properties. The photoluminescence quantum yields of perovskite quantum dots are close to 100%. The external quantum efficiencies and current efficiencies of perovskite quantum dot light-emitting diodes have reached 8% and 43 cd A^(-1),respectively, and their nanowire lasers show ultralow-threshold room-temperature lasing with emission tunability and ease of synthesis. Perovskite nanowire photodetectors reached a responsivity of 10 A W^(-1)and a specific normalized detectivity of the order of 10^(12 )Jones. Different from most reported reviews focusing on photovoltaic applications, we summarize the rapid progress in the study of low-dimensional perovskite materials, as well as their promising applications in optoelectronic devices. In particular, we review the wide tunability of fabrication methods and the state-of-the-art research outputs of low-dimensional perovskite optoelectronic devices. Finally, the anticipated challenges and potential for this exciting research are proposed.展开更多
A novel Zn-based metal–organic framework Zn(dobdc)(datz)[Zn_(2)(H2dobdc)(datz)2$1.5DMF]with plentiful hydrogen bond donors(HBD)groups was facilely synthesized from mixed ligands.The dual activation of metal Zn sites ...A novel Zn-based metal–organic framework Zn(dobdc)(datz)[Zn_(2)(H2dobdc)(datz)2$1.5DMF]with plentiful hydrogen bond donors(HBD)groups was facilely synthesized from mixed ligands.The dual activation of metal Zn sites and HBD groups for epoxides by forming Zn–O adduct and hydrogen bonds facilitated the ring-opening of epoxide substrate,which is critical for the subsequent CO_(2) fixation.Also,the existence of micropores and N-rich units in Zn(dobdc)(datz)afforded affinity towards CO_(2),which is beneficial to further improvement on catalytic CO_(2) conversion performance.Satisfactorily,Zn(dobdc)(datz)/Bu4NBr system was proved efficient heterogeneous catalyst for the CO_(2) cycloaddition with epoxides,and 98%propylene carbonate yield was obtained under mild conditions(80C,1.5 MPa and solvent-free).In addition,Zn(dobdc)(datz)/Bu4NBr exhibited remarkable versatility to different epoxides and could be completely recycled over six runs with high catalytic activity.The highly stable,easily recycle and solvent-free Zn-based MOF reported here displays eco-friendly and efficient performance to CO_(2)conversion.展开更多
The paper starts with a presentation of the versatile leadership model developed by Kaplan and Kaiser and of their 360 feedback tool Leadership Versatility Index (LVI). Versatility can be generally defined as a mast...The paper starts with a presentation of the versatile leadership model developed by Kaplan and Kaiser and of their 360 feedback tool Leadership Versatility Index (LVI). Versatility can be generally defined as a mastery of opposites, as the ability to play multiple roles, even contradictory ones, without emphasizing some at the expense of others. The LVI has been designed to help managers understand their repertoire and how they can become more versatile leaders. It employs an innovative rating scale on which ideal score "0" is in the middle of it (the right amount), flanked by underdoing to the left (too little) and overdoing to the right (too much). The idea is to avoid the "more is better" design trap by providing a way for raters to indicate when managers go to counterproductive extremes. The LVI works with two-sided view of leadership based on two major pairs of opposites: directive vs. supportive leadership and execution vs. strategy. Interventions based on the LVI results help to overcome traditional behaviorism as they combine the outer work (behavioral change) with the inner work (personal change) of development. Application of the LV1 on a sample of the managers from Skoda Auto a.s. and verification of its practical value represented the core of the SAVS IGA project MM/O7/02. The last part of the paper is devoted to a presentation of the findings from this project. The LVI has been found to be both original and a very useful 360 feedback tool which can be addressed to two general groups of clients: (1) experienced senior managers; and (2) young perspective managers in the beginning of their career.展开更多
The lineage specification of mesenchymal stem/stromal cells(MSCs) is tightly regulated by a wide range of factors. Recently, the versatile functions of ZBP1(also known as DAI or DLM-1) have been reported in the blood ...The lineage specification of mesenchymal stem/stromal cells(MSCs) is tightly regulated by a wide range of factors. Recently, the versatile functions of ZBP1(also known as DAI or DLM-1) have been reported in the blood circulation and immune systems.However, the biological function of ZBP1 during the lineage specification of MSCs is still unknown. In the present study, we found that ZBP1 was upregulated during osteogenesis but downregulated during adipogenesis in mouse bone marrow-derived MSCs(m BMSCs). ZBP1 was highly expressed in osteoblasts but expressed at a relatively low level in marrow adipocytes. Knockdown of ZBP1 inhibited alkaline phosphataseactivity, extracellular matrix mineralization, and osteogenesis-related gene expression in vitro and reduced ectopic bone formation in vivo. Knockdown of ZBP1 also promoted adipogenesis in MSCs in vitro. Conversely, the overexpression of ZBP1 increased the osteogenesis but suppressed the adipogenesis of MSCs. When the expression of ZBP1 was rescued, the osteogenic capacity of ZBP1-depleted m BMSCs was restored at both the molecular and phenotypic levels.Furthermore, we demonstrated that ZBP1, a newly identified target of Wnt/β-catenin signaling, was required for β-catenin translocation into nuclei. Collectively, our results indicate that ZBP1 is a novel regulator of bone and fat transdifferentiation via Wnt/β-catenin signaling.展开更多
Articular cartilage serves as a low-friction,load-bearing tissue without the support with blood vessels,lymphatics and nerves,making its repair a big challenge.Transforming growth factor-beta 3(TGF-β3),a vital member...Articular cartilage serves as a low-friction,load-bearing tissue without the support with blood vessels,lymphatics and nerves,making its repair a big challenge.Transforming growth factor-beta 3(TGF-β3),a vital member of the highly conserved TGF-βsuperfamily,plays a versatile role in cartilage physiology and pathology.TGF-β3 influences the whole life cycle of chondrocytes and mediates a series of cellular responses,including cell survival,proliferation,migration,and differentiation.Since TGF-β3 is involved in maintaining the balance between chondrogenic differentiation and chondrocyte hypertrophy,its regulatory role is especially important to cartilage development.Increased TGF-β3 plays a dual role:in healthy tissues,it can facilitate chondrocyte viability,but in osteoarthritic chondrocytes,it can accelerate the progression of disease.Recently,TGF-β3 has been recognized as a potential therapeutic target for osteoarthritis(OA)owing to its protective effect,which it confers by enhancing the recruitment of autologous mesenchymal stem cells(MSCs)to damaged cartilage.However,the biological mechanism of TGF-β3 action in cartilage development and OA is not well understood.In this review,we systematically summarize recent progress in the research on TGF-β3 in cartilage physiology and pathology,providing up-to-date strategies for cartilage repair and preventive treatment.展开更多
A versatile peroxidase (VP-Peco60-7 ) was generated and purified from the liquid culture of Pleurotus eryngii. The purification procedure included ammonium sulfate precipitation, ion exchange chromatography, and gel c...A versatile peroxidase (VP-Peco60-7 ) was generated and purified from the liquid culture of Pleurotus eryngii. The purification procedure included ammonium sulfate precipitation, ion exchange chromatography, and gel chromatography. The molecular weight and isoelectric point (pI) of VP-Peco60-7 were determined to be approxi-mately 40 kDa and 4.1, respectively. By N-terminal sequence determination and peptide mapping analysis, VP-Peco60-7 was found to be similar to the versatile peroxidase isoenzyme VPL1, which was previously isolated from liquid cultures of the same species. However, the molecular weight and pI of VP-Peco60-7 were different from those of versatile peroxidases of liquid cultures, implying that the VP-Peco60-7 in this study is of a novel type. With 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) as a substrate, the maximal enzyme activity was obtained at 50 °C and pH 3.0. The catalysis of ABTS by VP-Peco60-7 was expressed by the Michaelis-Menten equa-tion. At 50 °C and pH 3.0, the maximum velocity (V max ) was 188.68 U·mg-1 and the michaelis constant (K m ) was 203.09 μmol·L-1 .展开更多
With the emergence of DNA nanotechnology in the 1980s, self-assembled DNA nanostructures have attracted considerable attention worldwide due to their inherent biocompatibility, unsurpassed programmability, and versati...With the emergence of DNA nanotechnology in the 1980s, self-assembled DNA nanostructures have attracted considerable attention worldwide due to their inherent biocompatibility, unsurpassed programmability, and versatile functions. Especially promising nanostructures are tetrahedral framework nucleic acids(t FNAs), first proposed by Turberfield with the use of a one-step annealing approach. Benefiting from their various merits, such as simple synthesis, high reproducibility, structural stability, cellular internalization, tissue permeability, and editable functionality, t FNAs have been widely applied in the biomedical field as threedimensional DNA nanomaterials. Surprisingly, t FNAs exhibit positive effects on cellular biological behaviors and tissue regeneration,which may be used to treat inflammatory and degenerative diseases. According to their intended application and carrying capacity,t FNAs could carry functional nucleic acids or therapeutic molecules through extended sequences, sticky-end hybridization,intercalation, and encapsulation based on the Watson and Crick principle. Additionally, dynamic t FNAs also have potential applications in controlled and targeted therapies. This review summarized the latest progress in pure/modified/dynamic t FNAs and demonstrated their regenerative medicine applications. These applications include promoting the regeneration of the bone,cartilage, nerve, skin, vasculature, or muscle and treating diseases such as bone defects, neurological disorders, joint-related inflammatory diseases, periodontitis, and immune diseases.展开更多
文摘In this study,the entropy weight method was used to measure the agricultural versatility of 30 provinces in China(excluding Tibet,Hong Kong region,Macao region,and Taiwan region of China)from 2008 to 2019.In addition,the Theil index method and kernel density estimation were used to analyze the spatiotemporal characteristics of the agricultural versatility in each province.The results show that the agricultural product supply and social security functions rapidly developed,but the economic development was weak.From 2008 to 2019,the total functional index of agriculture increased by 6.74%;the functional index of the agricultural product supply,social security,and ecological services increased by 12.72%,5.53%,and 2.05%,respectively;and the functional index of economic development decreased by 1.32%.The development of agricultural multifunctions in China is regionally heterogeneous.Based on the Theil index method,the differences in the agricultural functions of the three regions are mainly due to intragroup differences.The contribution of intragroup differences of the eight economic regions is significantly lower than that of the three regions.However,intragroup differences dominate the agricultural product supply,economic development,and social security functions and intergroup differences control the ecological service function.The kernel density estimation curve shows that the overall agricultural functional evaluation index increased,among which the agricultural product supply function increased the most.
文摘Peroxisomes are small,highly dynamic,and multifunctional organelles in eukaryotes.Essential to plant survival,peroxisomes house various crucial metabolic activities,such as degradation of hydrogen peroxide(H2O2),lipid metabolism,photorespiration,and hormone biosynthesis and catabolism,and remodel their proteome in response to developmental and environmental changes(Hu et al.2012;Pan and Hu 2018).The four reviews and three research articles in this special issue on plant peroxisomes provide new insights into the diverse roles and dynamics of these structurally simple but functionally complicated organelles,raising exciting new questions for future investigations.
文摘现有的基于卷积神经网络(convolutional neural network,CNN)的环路滤波器倾向于将多个网络应用于不同的量化参数(quantization parameter,QP),消耗训练模型中的大量资源,并增加内存负担。针对这一问题,提出一种基于CNN的QP自适应环路滤波器。首先,设计一个轻量级分类网络,按照滤波难易程度将编码树单元(coding tree unit,CTU)划分为难、中、易3类;然后,构建3个融合了特征信息增强融合模块的基于CNN的滤波网络,以满足不同QP下的3类CTU滤波需求。将所提出的环路滤波器集成到多功能视频编码(versatile video coding,VVC)标准H.266/VVC的测试软件VTM 6.0中,替换原有的去块效应滤波器(deblocking filter,DBF)、样本自适应偏移(sample adaptive offset,SAO)滤波器和自适应环路滤波器。实验结果表明,该方法平均降低了3.14%的比特率差值(Bjøntegaard delta bit rate,BD-BR),与其他基于CNN的环路滤波器相比,显著提高了压缩效率,并减少了压缩伪影。
基金supported by the National Natural Science Foundation of China(Nos.52100084 and 52170155)Shenzhen Natural Science Fund(the stable support plan program,No.GXWD20231129152058003)。
文摘Exploring efficient catalyst is critical for the application of persulfate-based advanced oxidation processes(AOPs)for environment remediation.Herein,perovskite CoTiO_(3)was demonstrated an efficient catalyst for peroxymonosulfate(PMS)activation,which shows superior performance compared with single metal oxide system and homogenous systems:It removes 98.2%of hydroxychloroquine(HCQ,drugs for effective treatment of COVID-19)within 20 min at low dose of PMS(0.5 mmol/L),showing high tolerance to the environmental p H range(3.5–10.6)and significant versatility for various refractory organics.Combined with the material characterization and DFT calculations,it is found Co–O–Ti bond in CoTiO_(3)serves as an electron mediator to facilitate the rapid redox cycles of Co^(2+)/Co^(3+)during activation process,thus maintaining the high catalytic activity.Further mechanism exploration showed that fast regeneration of Co^(2+)ensures the production of high concentration of SO_(4)·-and·OH,thus securing the rapid degradation of HCQ.Moreover,a designed CoTiO_(3)-CNT-PVDF membrane reactor can effectively remove refractory pollutant via practically feasible filter-through mode,which delivers a highest removal efficiency and longest operation duration compared with previous developed membrane-based AOPs.The corresponding mechanism revealed in this work can serve as guidelines for the design of advanced heterogenous catalysts and membrane reactors for AOPs.
基金supported by the grants from the National Key Research and Development Program of China 2023YFC2505900support from State Key Laboratory of Photovoltaic Science and Technology 202401030303.
文摘Flexible photodetectors have garnered significant attention by virtue of their potential applications in environmental monitoring,wearable healthcare,imaging sensing,and portable optical communications.Perovskites stand out as particularly promising materials for photodetectors,offering exceptional optoelectronic properties,tunable band gaps,low-temperature solution processing,and notable mechanical flexibility.In this review,we explore the latest progress in flexible perovskite photodetectors,emphasizing the strategies developed for photoactive materials and device structures to enhance optoelectronic performance and stability.Additionally,we discuss typical applications of these devices and offer insights into future directions and potential applications.
基金supported by the National Natural Science Foundation of China(22179089)。
文摘Throughout versatile metal compositions and unique structural characteristics,polynary metal atom catalysts(PACs)readily harness synergistic intermetallic effects,significantly boosting the catalytic performances.These catalysts are featured by favorable catalytic activity,stability and selectivity,offering avenues to tackle challenges in energy conversion,environmental protection and chemical synthesis.Nevertheless,an in-depth understanding and comprehensive summary of the structure-performance relationship for the emerging PACs remains elusive.This review embarks from the classification of PACs,delving further into the origins of catalytic activity and mechanisms underpinning performance enhancement.At the beginning,it outlines the fundamental concepts,preparation methods and accurate recognition of PACs.Subsequently,it centers on discussing the origins of activity,strategies for performance optimization,mechanisms of action,and application scenarios across diverse catalytic reactions.Moreover,the unexplored issues and future perspectives of PACs are proposed at the end,stating their pivotal roles in advancing green chemistry and the sustainable energy realm.This review overall aims to provide valuable insight and guidance for the preparation and application of PACs.
基金Supported by Natural Science Foundation of Hunan Province,China,No.2022JJ30842 and No.2024JJ6560Clinical Medical Research Center for Viral Hepatitis of Hunan Province,No.2023SK4009Beijing iGandan Foundation,No.RGGJJ-2021-017 and No.iGandanF-1082022-RGG023.
文摘BACKGROUND We have innovatively amalgamated membrane blood purification and centrifugal blood cell separation technologies to address the limitations of current artificial liver support(ALS)models,and develop a versatile plasma purification system(VPPS)through centrifugal plasma separation.AIM To investigate the influence of VPPS on long-term rehospitalization and mortality rates among patients with acute-on-chronic liver failure(ACLF).METHODS This real-world,prospective study recruited inpatients diagnosed with ACLF from the Second Xiangya Hospital of Central South University between October 2021 and March 2024.Patients were categorized into the VPPS and non-VPPS groups based on the distinct ALS models administered to them.Self-administered questionnaires,clinical records,and self-reported data served as the primary methods for data collection.The laboratory results were evaluated at six distinct time points.All patients were subjected to follow-up assessments for>12 months.Kaplan-Meier survival analyses and Cox proportional hazards models were used to evaluate the risks of hospitalization and mortality during the follow-up period.RESULTS A cohort of 502 patients diagnosed with ACLF was recruited,with 260 assigned to the VPPS group.On comparing baseline characteristics,the VPPS group exhibited a significantly shorter length of stay,higher incidence of spontaneous peritonitis and pulmonary aspergillosis compared to the non-VPPS group(P<0.05).Agehazard ratio(HR=1.142,95%CI:1.01-1.23,P=0.018),peritonitis(HR=2.825,95%CI:1.07-6.382,P=0.026),albumin(HR=0.67,95%CI:0.46-0.942,P=0.023),total bilirubin(HR=1.26,95%CI:1.01-3.25,P=0.021),international normalized ratio(HR=1.97,95%CI:1.21-2.908,P=0.014),and VPPS/non-VPPS(HR=3.24,95%CI:2.152-4.76,P<0.001)were identified as significant independent predictors of mortality in both univariate and multivariate analyses throughout the follow-up period.Kaplan-Meier survival analyses demonstrated significantly higher rehospitalization and mortality rates in the non-VPPS group compared to the VPPS group during follow-up of≥2 years(log-rank test,P<0.001).CONCLUSION These findings suggest that VPPS is safe and has a positive influence on prognostic outcomes in patients with ACLF.
基金supported by the Leverhulme Trust Research Project(Grant No.RPG-2020-021).
文摘Paper and pulp mills generate substantial volumes of wastewater containing lignin-derived compounds that are challenging to degrade using conventional wastewater treatment methods.This study presents a novel biofilm-based process for enhanced lignin removal in wastewater using the fungus Neurospora discreta,which effectively degrades lignin and forms robust biofilms at the air–liquid interface under specific conditions.The process was optimised using the Taguchi design of experiments approach,and three factors including pH,copper sulphate concentration,and trace element concentration were evaluated at three levels.Experimental data were analysed against three responses:lignin degradation efficiency and the activities of two ligninolytic enzymes(polyphenol oxidase and versatile peroxidase).The results indicated that wastewater pH was the most significant parameter affecting lignin degradation efficiency and enzyme activities.Over 70%lignin degradation was achieved at pH levels of 5 and 6 with copper sulphate concentrations above 4 mg/L,while degradation efficiency drastically dropped to 45%at a pH value of 7.Reversed-phase high-performance liquid chromatography analysis demonstrated the effects of the three factors on the polar and non-polar components of lignin in wastewater,revealing a clear decrease in all peak areas after treatment.Additionally,significant relationships were observed between biofilm properties(including porosity,water retention value,polysaccharide content,and protein content)and lignin removal efficiency.This study also reported for the first time the presence of versatile peroxidase,a ligninolytic enzyme,in Neurospora sp.
基金supported by the National Key Research and Development Program of China(2023YFB3811502)the National Science Foundation of China(62225108)+5 种基金the Fundamental Research Funds for the Central Universities(2242022k60003)the National Natural Science Foundation of China(62288101 and 62201139)the Jiangsu Province Frontier Leading Technology Basic Research Project(BK20212002)the Jiangsu Provincial Scientific Research Center of Applied Mathematics(BK20233002)the Fundamental Research Funds for the Central Universities(2242024RCB0005 and 2242024K30009)the 111 Project(111-2-05).
文摘With digital coding technology,reconfigurable intelligent surfaces(RISs)become powerful real-time sys-tems for manipulating electromagnetic(EM)waves.However,most automatic RIS designs involve exten-sive numerical simulations of the unit,including the passive pattern and active devices,requiring high data acquisition and training costs.In addition,for passive patterns,the widely employed random pixe-lated method presents design efficiency and effectiveness challenges due to the massive pixel combina-tions and blocked excitation current flow in discrete patterns.To overcome these two critical problems,we propose a versatile RIS design paradigm with efficient topology representation and a separate design architecture.First,a non-uniform rational B-spline(NURBS)is introduced to represent continuous pat-terns and solve excitation current flow issues.This representation makes it possible to finely tune con-tinuous patterns with several control points,greatly reducing the pattern solution space by 20-fold and facilitating RIS optimization.Then,employing multiport network theory to separate the passive pat-tern and active device from the unit,the separate design architecture significantly reduces the dataset acquisition cost by 62.5%.Through multistep multiport calculation,the multistate EM responses of the RIS under different structural combinations can be quickly obtained with only one prediction of pattern response,thereby achieving dataset and model reuse for different RIS designs.With a hybrid continuous-discrete optimization algorithm,three examples—including two typical high-performance RISs and an ultra-wideband multilayer RIS—are provided to validate the superiority of our paradigm.Our work offers an efficient solution for RIS automatic design,and the resulting structure is expected to boost RIS appli-cations in the fields of wireless communication and sensing.
文摘随着现场可编程门阵列(Field Programmable Gate Array,FPGA)在现代航天领域的广泛应用,FPGA的单粒子效应(Single Event Effect,SEE)逐渐成为人们的研究热点。选择Microsemi公司Flash型FPGA分布范围最广的可编程逻辑资源VersaTile和对单粒子效应敏感的嵌入式RAM单元RAM Block作为单粒子效应的主要测试对象,提出了两种不同的单粒子效应测试方法;然后,使用仿真工具ModelSim对提出的两种电路的可行性进行了仿真验证;最后,基于自主研发的实验测试平台,在兰州重离子加速器(Heavy Ion Research Facility in Lanzhou,HIRFL)上使用86Kr束进行了束流辐照实验,实验结果表明,测试方法合理有效。
文摘为了提高FPGA(Field Programmable Gate Array)的布通率并优化电路的连线长度,在模拟退火算法的基础上,该文提出一种新的FPGA布局算法。该算法在不同的温度区间采用不同的评价函数,高温阶段采用半周长法进行快速优化布局,低温阶段在评价函数中加入变量因子并进行适度的回火处理,以此来优化布局。实验表明,该算法提高了布通率,优化了连线长度,与最具代表性的VPR(Versatile Place and Route)布局算法相比布线通道宽度提高了近6%,电路总的连线长度降低了4-23%。
基金supported by the Doctoral Program of Higher Education(20130142120075)the Fundamental Research Funds for the Central Universities(HUST:2016YXMS032)National Key Research and Development Program of China(Grant No.2016YFB0700702)
文摘Metal halide perovskites are crystalline materials originally developed out of scientific curiosity. They have shown great potential as active materials in optoelectronic applications. In the last 6 years, their certified photovoltaic efficiencies have reached 22.1%. Compared to bulk halide perovskites, low-dimensional ones exhibited novel physical properties. The photoluminescence quantum yields of perovskite quantum dots are close to 100%. The external quantum efficiencies and current efficiencies of perovskite quantum dot light-emitting diodes have reached 8% and 43 cd A^(-1),respectively, and their nanowire lasers show ultralow-threshold room-temperature lasing with emission tunability and ease of synthesis. Perovskite nanowire photodetectors reached a responsivity of 10 A W^(-1)and a specific normalized detectivity of the order of 10^(12 )Jones. Different from most reported reviews focusing on photovoltaic applications, we summarize the rapid progress in the study of low-dimensional perovskite materials, as well as their promising applications in optoelectronic devices. In particular, we review the wide tunability of fabrication methods and the state-of-the-art research outputs of low-dimensional perovskite optoelectronic devices. Finally, the anticipated challenges and potential for this exciting research are proposed.
基金the National Natural Science Foundation of China(21972034,21673060)the State Key Lab of Urban Water Resource and Environment of Harbin Institute of Technology(HIT2019DX12).
文摘A novel Zn-based metal–organic framework Zn(dobdc)(datz)[Zn_(2)(H2dobdc)(datz)2$1.5DMF]with plentiful hydrogen bond donors(HBD)groups was facilely synthesized from mixed ligands.The dual activation of metal Zn sites and HBD groups for epoxides by forming Zn–O adduct and hydrogen bonds facilitated the ring-opening of epoxide substrate,which is critical for the subsequent CO_(2) fixation.Also,the existence of micropores and N-rich units in Zn(dobdc)(datz)afforded affinity towards CO_(2),which is beneficial to further improvement on catalytic CO_(2) conversion performance.Satisfactorily,Zn(dobdc)(datz)/Bu4NBr system was proved efficient heterogeneous catalyst for the CO_(2) cycloaddition with epoxides,and 98%propylene carbonate yield was obtained under mild conditions(80C,1.5 MPa and solvent-free).In addition,Zn(dobdc)(datz)/Bu4NBr exhibited remarkable versatility to different epoxides and could be completely recycled over six runs with high catalytic activity.The highly stable,easily recycle and solvent-free Zn-based MOF reported here displays eco-friendly and efficient performance to CO_(2)conversion.
文摘The paper starts with a presentation of the versatile leadership model developed by Kaplan and Kaiser and of their 360 feedback tool Leadership Versatility Index (LVI). Versatility can be generally defined as a mastery of opposites, as the ability to play multiple roles, even contradictory ones, without emphasizing some at the expense of others. The LVI has been designed to help managers understand their repertoire and how they can become more versatile leaders. It employs an innovative rating scale on which ideal score "0" is in the middle of it (the right amount), flanked by underdoing to the left (too little) and overdoing to the right (too much). The idea is to avoid the "more is better" design trap by providing a way for raters to indicate when managers go to counterproductive extremes. The LVI works with two-sided view of leadership based on two major pairs of opposites: directive vs. supportive leadership and execution vs. strategy. Interventions based on the LVI results help to overcome traditional behaviorism as they combine the outer work (behavioral change) with the inner work (personal change) of development. Application of the LV1 on a sample of the managers from Skoda Auto a.s. and verification of its practical value represented the core of the SAVS IGA project MM/O7/02. The last part of the paper is devoted to a presentation of the findings from this project. The LVI has been found to be both original and a very useful 360 feedback tool which can be addressed to two general groups of clients: (1) experienced senior managers; and (2) young perspective managers in the beginning of their career.
基金supported by the Foundation of the National Natural Science Foundation of China (No. 81671024, 81371171, 81571009, and 81600877)the China Postdoctoral Science Foundation (2016M600745)。
文摘The lineage specification of mesenchymal stem/stromal cells(MSCs) is tightly regulated by a wide range of factors. Recently, the versatile functions of ZBP1(also known as DAI or DLM-1) have been reported in the blood circulation and immune systems.However, the biological function of ZBP1 during the lineage specification of MSCs is still unknown. In the present study, we found that ZBP1 was upregulated during osteogenesis but downregulated during adipogenesis in mouse bone marrow-derived MSCs(m BMSCs). ZBP1 was highly expressed in osteoblasts but expressed at a relatively low level in marrow adipocytes. Knockdown of ZBP1 inhibited alkaline phosphataseactivity, extracellular matrix mineralization, and osteogenesis-related gene expression in vitro and reduced ectopic bone formation in vivo. Knockdown of ZBP1 also promoted adipogenesis in MSCs in vitro. Conversely, the overexpression of ZBP1 increased the osteogenesis but suppressed the adipogenesis of MSCs. When the expression of ZBP1 was rescued, the osteogenic capacity of ZBP1-depleted m BMSCs was restored at both the molecular and phenotypic levels.Furthermore, we demonstrated that ZBP1, a newly identified target of Wnt/β-catenin signaling, was required for β-catenin translocation into nuclei. Collectively, our results indicate that ZBP1 is a novel regulator of bone and fat transdifferentiation via Wnt/β-catenin signaling.
基金National Natural Science Foundation of China(81771047 to J.X.,81670978 and 81870754 to X.Z.)Sichuan Science&Technology Innovation Talent Project(2022JDRC0044)。
文摘Articular cartilage serves as a low-friction,load-bearing tissue without the support with blood vessels,lymphatics and nerves,making its repair a big challenge.Transforming growth factor-beta 3(TGF-β3),a vital member of the highly conserved TGF-βsuperfamily,plays a versatile role in cartilage physiology and pathology.TGF-β3 influences the whole life cycle of chondrocytes and mediates a series of cellular responses,including cell survival,proliferation,migration,and differentiation.Since TGF-β3 is involved in maintaining the balance between chondrogenic differentiation and chondrocyte hypertrophy,its regulatory role is especially important to cartilage development.Increased TGF-β3 plays a dual role:in healthy tissues,it can facilitate chondrocyte viability,but in osteoarthritic chondrocytes,it can accelerate the progression of disease.Recently,TGF-β3 has been recognized as a potential therapeutic target for osteoarthritis(OA)owing to its protective effect,which it confers by enhancing the recruitment of autologous mesenchymal stem cells(MSCs)to damaged cartilage.However,the biological mechanism of TGF-β3 action in cartilage development and OA is not well understood.In this review,we systematically summarize recent progress in the research on TGF-β3 in cartilage physiology and pathology,providing up-to-date strategies for cartilage repair and preventive treatment.
基金Supported by the Special Funds for Major State Basic Research Program of China (2007CB707805) the Natural Science Foundation of Zhejiang Province (Y505334)
文摘A versatile peroxidase (VP-Peco60-7 ) was generated and purified from the liquid culture of Pleurotus eryngii. The purification procedure included ammonium sulfate precipitation, ion exchange chromatography, and gel chromatography. The molecular weight and isoelectric point (pI) of VP-Peco60-7 were determined to be approxi-mately 40 kDa and 4.1, respectively. By N-terminal sequence determination and peptide mapping analysis, VP-Peco60-7 was found to be similar to the versatile peroxidase isoenzyme VPL1, which was previously isolated from liquid cultures of the same species. However, the molecular weight and pI of VP-Peco60-7 were different from those of versatile peroxidases of liquid cultures, implying that the VP-Peco60-7 in this study is of a novel type. With 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) as a substrate, the maximal enzyme activity was obtained at 50 °C and pH 3.0. The catalysis of ABTS by VP-Peco60-7 was expressed by the Michaelis-Menten equa-tion. At 50 °C and pH 3.0, the maximum velocity (V max ) was 188.68 U·mg-1 and the michaelis constant (K m ) was 203.09 μmol·L-1 .
基金supported by National Key R&D Program of China(2019YFA0110600)National Natural Science Foundation of China(82101077,81970916)+3 种基金Sichuan Province Youth Science and Technology Innovation Team(2022JDTD0021)Sichuan University Postdoctoral Interdisciplinary Innovation Fundthe Fundamental Research Funds for the Central Universities,Postdoctoral Science Foundation of China(Grant 2021M692271)West China School/Hospital of Stomatology Sichuan University(No.RCDWJS2022-14 and RCDWJS2021-20)。
文摘With the emergence of DNA nanotechnology in the 1980s, self-assembled DNA nanostructures have attracted considerable attention worldwide due to their inherent biocompatibility, unsurpassed programmability, and versatile functions. Especially promising nanostructures are tetrahedral framework nucleic acids(t FNAs), first proposed by Turberfield with the use of a one-step annealing approach. Benefiting from their various merits, such as simple synthesis, high reproducibility, structural stability, cellular internalization, tissue permeability, and editable functionality, t FNAs have been widely applied in the biomedical field as threedimensional DNA nanomaterials. Surprisingly, t FNAs exhibit positive effects on cellular biological behaviors and tissue regeneration,which may be used to treat inflammatory and degenerative diseases. According to their intended application and carrying capacity,t FNAs could carry functional nucleic acids or therapeutic molecules through extended sequences, sticky-end hybridization,intercalation, and encapsulation based on the Watson and Crick principle. Additionally, dynamic t FNAs also have potential applications in controlled and targeted therapies. This review summarized the latest progress in pure/modified/dynamic t FNAs and demonstrated their regenerative medicine applications. These applications include promoting the regeneration of the bone,cartilage, nerve, skin, vasculature, or muscle and treating diseases such as bone defects, neurological disorders, joint-related inflammatory diseases, periodontitis, and immune diseases.
