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activation的相关文献在1989年到2022年内共计268篇,主要集中在肿瘤学、化学、金属学与金属工艺 等领域,其中期刊论文266篇、专利文献2篇;相关期刊121种,包括国际肝胆胰疾病杂志(英文版)、金属学报:英文版、中国稀土学报:英文版等; activation的相关文献由943位作者贡献,包括Amalia Slomiany、Bronislaw L. Slomiany、Charles Nwachukwu Anyakwo等。

activation—发文量

期刊论文>

论文:266 占比:99.25%

专利文献>

论文:2 占比:0.75%

总计:268篇

activation—发文趋势图

activation

-研究学者

  • Amalia Slomiany
  • Bronislaw L. Slomiany
  • Charles Nwachukwu Anyakwo
  • Chijioke Samson Nwobodo
  • Nobuo Yamaguchi
  • Okechukwu Onyebuchi Onyemaobi
  • Udochukwu Mark
  • Akihiro Toyoda
  • Bakhtiyar G. Atabaev
  • Debasish Chattopadhya
  • 期刊论文
  • 专利文献

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    • Hengming Huang; Hui Song; Jiahui Kou; Chunhua Lu; Jinhua Ye
    • 摘要: Photocatalytic conversion of CO_(2)into solar fuels provides a bright route for the green and sustainable development of human society.However,the realization of efficient photocatalytic CO_(2)reduction reaction(CO_(2)RR)is still challenging owing to the sluggish kinetics or unfavorable thermodynamics for basic chemical processes of CO_(2)RR,such as adsorption,activation,conversion and product desorption.To overcome these shortcomings,recent works have demonstrated that surface engineering of semiconductors,such as introducing surface vacancy,surface doping,and cocatalyst loading,serves as effective or promising strategies for improved photocatalytic CO_(2)RR with high activity and selectivity.The essential reason lies in the activation and reaction pathways can be optimized and regulated through the reconstruction of surface atomic and electronic structures.Herein,in this review,we focus on recent research advances about rational design of semiconductor surface for photocatalytic CO_(2)RR.The surface engineering strategies for improved CO_(2)adsorption,activation,and product selectivity will be reviewed.In addition,theoretical calculations along with in situ characterization techniques will be in the spotlight to clarify the kinetics and thermodynamics of the reaction process.The aim of this review is to provide deep understanding and rational guidance on the design of semiconductors for photocatalytic CO_(2)RR.
    • Dmitry Victorovich Garbuzenko
    • 摘要: Liver fibrosis is a complex pathological process controlled by a variety of cells,mediators and signaling pathways.Hepatic stellate cells play a central role in the development of liver fibrosis.In chronic liver disease,hepatic stellate cells undergo dramatic phenotypic activation and acquire fibrogenic properties.This review focuses on the pathophysiological mechanisms of hepatic stellate cells activation in liver fibrosis.They enter the cell cycle under the influence of various triggers.The“Initiation”phase of hepatic stellate cells activation overlaps and continues with the“Perpetuation”phase,which is characterized by a pronounced inflammatory and fibrogenic reaction.This is followed by a resolution phase if the injury subsides.Knowledge of these pathophysiological mechanisms paved the way for drugs aimed at preventing the development and progression of liver fibrosis.In this respect,impairments in intracellular signaling,epigenetic changes and cellular stress response can be the targets of therapy where the goal is to deactivate hepatic stellate cells.Potential antifibrotic therapy may focus on inducing hepatic stellate cells to return to an inactive state through cellular aging,apoptosis,and/or clearance by immune cells,and serve as potential antifibrotic therapy.It is especially important to prevent the formation of liver cirrhosis since the only radical approach to its treatment is liver transplantation which can be performed in only a limited number of countries.
    • Maoru Fu; Binyang Sun; Liquan Guo; Zan Ye; Xiangxiang Zhuang
    • 摘要: Different geological conditions are often encountered in the excavation of coal mine roadways, with fault-fracture zone being the most commonly seen complex geological conditions. Fault-fracture zone is characterized by complex lithologic property and joint development and can easily cause safety accidents when excavation burrows through the fault. Therefore, grouting reinforcement of fault-fracture zone is often implemented to ensure coal mine safety production. Based on the tunnel excavation case of −530 - −650 m belt conveyor inclined roadway at Huainan Pan’er Coal Mine, borehole optical fiber and electrical testing technologies were applied to monitor and analyze the dynamics of the surrounding rock stability when roadway excavation passed through the F1 fault, and evaluate the effect of grouting reinforcement on fault-fracture zone. According to the results of optical fiber and electrical methods, the distributional characteristics and evolution patterns of strain and electric resistivity were analyzed. The research pointed out the distinct difference in variation characteristics of strain and electrical fields between grouted reinforced fault-fracture zone and normal rock strata sections. This indicates that the grouting reinforcement effectively improve physical properties of rock strata in the fractured section, the stability of the rock strata at the fault-fracture zone was effectively increased, the degree of fault activation and deformation was relatively small, and roadway surrounding rock basically retained its original properties, pointing to high stability.
    • Nicholas W Hubbard
    • 摘要: The RNA-editing enzyme ADAR1 is essential for the suppression of innate immune activation and pathology caused by aberrant recognition of self-RNA, a role it carries out by disrupting the duplex structure of endogenous double-stranded RNA species1,2. A point mutation in the sequence encoding the Z-DNA-binding domain (ZBD) of ADAR1 is associated with severe autoinflammatory disease3-5. ZBP1 is the only other ZBD-containing mammalian protein6, and its activation can trigger both cell death and transcriptional responses through the kinases RIPK1 and RIPK3, and the protease caspase 8 (refs. 7-9). Here we show that the pathology caused by alteration of the ZBD of ADAR1 is driven by activation of ZBP1. We found that ablation of ZBP1 fully rescued the overt pathology caused by ADAR1 alteration, without fully reversing the underlying inflammatory program caused by this alteration.
    • Yanyan Wei; Xiaochen Tang; Tingyu Zhang; Wenjun Su; Lihua Xu; Huiru Cui; Zhenying Qian; Tianhong Zhang; Jijun Wang
    • 摘要: Background Clinical high risk(CHR)of psychosis is a state in which positive symptoms cause the subjects distress but do not approach a severity level that fulfils the criteria for a psychotic episode.CHR exhibits cognitive deficits;however,the underlying neurobiological mechanisms remain unclear.This study aimed to investigate whether brain activation measured by the levels of oxygenated hemoglobin(oxy-Hb)in CHR subjects could be correlated with cognitive deficits.Methods Fifty-eight CHR individuals who fulfilled the criteria for attenuated positive syndrome as specified in the Structured Interview for Prodromal Syndrome(SIPS)and the Scale of Prodromal Syndrome(SOPS)and 58 age-and sex-matched healthy participants were included in the study.All subjects completed the Measurement and Treatment Research to Improve Cognition in Schizophrenia(MATRICS)Consensus Cognitive Battery(MCCB)that includes tests measuring attention,verbal memory,verbal fluency,executive function,and general intelligence.Functional near-infrared spectroscopy(fNIRS)was used to measure the level of oxy-Hb in the dorsolateral prefrontal and frontotemporal cortices.Results We observed significantly decreased oxy-Hb levels in channel 32(located in the right superior temporal gyrus,rSTG)within the CHR individuals compared with that in the healthy controls(HCs)(t=−3.44,Bonferroni-corrected p=0.002),indicating lower brain activity.A significant positive correlation was observed between task-relatedβvalues and working memory in the CHR group(r=0.35,p=0.008).Conclusions The brain activation of rSTG is abnormal among subjects at clinicial high risk for psychosis.This abnormality is probably associated with the neural mechanisms of deficits in the working memory during the early stage of psychosis.
    • Ahmad Amiri; M.Naraghi; Andreas A.Polycarpou
    • 摘要: Zinc ion hybrid supercapacitor (ZIHSC) with promising energy and power densities is an excellent answer to the ever-growing demand for energy storage devices.The restricted lifespan due to the dendrite formation on metallic zinc (Zn) is one of the main roadblocks.Herein,we investigate the electrochemical capability of oxygen-enriched porous carbon nanofibers (A-CNF) and nitrogen,oxygen-enriched porous carbon nanofibers (N-CNF) cathode materials for structural ZIHSCs.To this end,a series of samples with different chemical compositions (N and O contents) are prepared to present deep insight into the electrochemical mechanism between N/O doping and Zn-ion storage.The as-prepared ZIHSC in the presence of N-CNF cathode and Zn Cl_(2) electrolyte offers a battery-level gravimetric energy density of 143.2 Wh kg^(-1)at a power density of 367.1 W kg^(-1).The free-standing N-CNF electrodes in ZIHSCs enjoy delivering an outstanding areal energy density of 110.4μWh cm^(-2)at 0.24 m W cm^(-2),excellent rate capability,and noticeable cycling stability over 10,000 cycles at 10 A g^(-1)with less than 7%decay.It was also concluded that active pyrrolic N dopants might deliver and facilitate more pseudocapacitance in ZIHSCs than other N configurations,resulting in higher adsorption/desorption and insertion/extraction process of Zn Cl^(+).Taking advantage of the beneficial properties of a free-standing continuous cathode,this novel generation of structural cathode material offers high areal and gravimetric energy densities and mechanical properties in a single zinc-ion-based package.
    • Sara M. Younes; Basma M. El Dakiky; Eman R. Sadik
    • 摘要: One of the maximum residences of activated carbon is adsorption capacity, this significance grows every day in a variety of fields. One of its examples is water treatment, processing of potable, all of those residences deliver capacity of activated carbon in smell elimination and flavor in residues of dissolved natural and color. Activated carbon was made from the carbonization of palm tree leave’s stems and activated using calcium chloride, then tested with an increase in reactivity indicated by iodine adsorption test up to 68.6% reactivity increase in commercial sample and 48.7% in palm tree leaves sample. As the methods and precursors of activated carbon are very diverse and result in deferent adsorption properties, the primary test includes: carbonization of palm tree leaves, size reduction and classification of the charcoal produced, applying an iodine test on the non-activated sample, activating another sample with activating agent CaCl2 to comparison between the activated carbon and the non-activated carbon and shows the increasing in the adsorption capacity for elemental iodine in activated carbon.
    • Wang Zhao-xia; Bu Juan; Zhang Xiao-ling; MAHAN Yeledan; Wu Xuan-xia; Zhou ling
    • 摘要: Objective:To investigate the effect of acacetin on flagellin induced NLRC4 inflammasome activation in mouse bone marrow-derived macrophages(BMDMs).Methods:Mouse BMDMs were divided into control group,LPS group,LPS+flagellin group and LPS+acacetin+flagellin group.All groups were added with complete medium,then primed with LPS(50 ng/mL)for 3 hrs except the control group,whereafter,LPS+flagellin group was treated with flagellin(10μmol/L)for 0.5 hr and LPS+acacetin+flagellin group was treated with acacetin(10μmol/L)for 0.5 hr following by flagellin(10μmol/L)for 0.5 hr.Pro-caspase-1,pro-IL-1βin cell lysate and caspase-1,IL-1βin supernatant were detected by Western blot(WB).IL-1β,IL-18 and TNF-αin supernatant were measured by enzyme-linked immunosorbent assay(ELISA).And the activity of LDH in supernatant was assessed by LDH test kit.Results:Compared with the control group,in LPS+flagellin group,the expression of caspase-1,IL-1βprotein in supernatant were significantly increased(all P-values<0.05),but the differences of the expression of pro-caspase-1 and pro-IL-1βprotein in cell lysate were not significant.Compared with LPS+flagellin group,in LPS+acacetin+flagellin group,the expression of caspase-1,IL-1βprotein in supernatant were significantly reduced(all P-values<0.05),while the differences of the expression of pro-caspase-1 and pro-IL-1βprotein in cell lysate were not significant.ELISA showed that compared with the control group,the levels of IL-1β,IL-18,and TNF-αand the activity of LDH in supernatant of LPS+flagellin group were significantly increased(all P-values<0.05).Compared with LPS+flagellin group,in LPS+Acacetin+flagellin group,the level of IL-1βin supernatant was significantly decreased(P<0.05),meanwhile,the decreases of the levels IL-18,TNF-αand the activity of LDH were not significant.Conclusions:We found that Acacetin can effectively inhibit flagellin induced NLRC4 inflammasome activation and reduce cell damage in mouse BMDMs.
    • Shao Yufeng; Cai Chenchen; Chen Yunong; Ren Yanli; Lu Guijuan; Xie Junfan; Hou Yiping
    • 摘要: Neuropeptide S(NPS)is a neuromodulator that concentratively expressed in the Kolliker Fuse nucleus(KF)and pericoerulear area(Peri-LC)in mice.NPS and its receptor(NPSR)system participates multiple biological effects.The paraventricular thalamus(PVT),a newly identified area that critical for wakefulness,highly expressed NPSR suggesting that NPS NPSR system may be involved in the regulation of sleep-waking states through PVT.The present study was undertaken to investigate effects of NPS on the sleep-waking states through PVT.
    • Bao-qin Liu; Jin Jin; Yi-yuan Li
    • 摘要: Interferon regulatory factors(IRFs)play pivotal and critical roles in innate and adaptive immune responses;thus,precise and stringent regulation of the stability and activation of IRFs in physiological processes is necessary.The stability and activities of IRFs are directly or indirectly targeted by endogenous and exogenous proteins in an ubiquitin-dependent manner.However,few reviews have summarized how host E3 ligases/DUBs or viral proteins regulate IRF stability and activity.Additionally,with recent technological developments,details about the ubiquitination of IRFs have been continuously revealed.As knowledge of how these proteins function and interact with IRFs may facilitate a better understanding of the regulation of IRFs in immune responses or other biological processes,we summarized current studies on the direct ubiquitination of IRFs,with an emphasis on how these proteins interact with IRFs and affect their activities,which may provide exciting targets for drug development by regulating the functions of specific E3 ligases.
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