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宏观均相多孔电极电化学阻抗谱基础 被引量:1
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作者 李响 黄秋安 +6 位作者 李伟恒 白玉轩 王佳 刘杨 赵玉峰 王娟 张久俊 《电化学》 CAS CSCD 北大核心 2021年第5期467-497,共31页
电化学阻抗谱可用于诊断多孔电极内电荷转移反应,即界面电荷集聚和电荷传导,以及反应物质输运。本文采用复相量方法,在同态假设条件下,重新推演多孔电极阻抗谱模型,厘清传统多孔电极阻抗谱模型中的模糊性表述。(1)定义多孔电极表征输入... 电化学阻抗谱可用于诊断多孔电极内电荷转移反应,即界面电荷集聚和电荷传导,以及反应物质输运。本文采用复相量方法,在同态假设条件下,重新推演多孔电极阻抗谱模型,厘清传统多孔电极阻抗谱模型中的模糊性表述。(1)定义多孔电极表征输入参数,包括电极基体电子电导率σ_(1)、电解质离子电导率σ_(2)、界面电荷传递电导率g_(ct)、单位面积界面电容C、固相扩散系数D、速度常数k、电极厚度d、特征孔深L_(p)和单位体积表面积S_(c);(2)解析阻抗谱特征输出参数,包括场扩散常数K,特征频率ω_(0)、ω_(1)、ω_(2)、ω_(3)和ω_(max),它们分别相关于界面传导反应、有限场扩散、氧化还原反应、孔内扩散和最小特征孔尺寸,以及分别对应于从传导到扩散和从扩散到饱和的转折频率fk1和f_(k2);(3)当参数X和Z同时变化时(X=σ_(1)和Z=d,S_(c),L_(p),C,g_(ct),D,k),通过阻抗谱特征参数的演变规律,分析了电荷转移反应中X和Ζ参数耦合竞争;(4)为深入分析电荷转移反应中参数X和Z的耦合竞争,引入了分叉频率f_(XZ)和f_(ZX)。f_(XZ)和f_(ZX)所处位置可以用于表征参数X和Z影响电荷转移反应的深度和广度。当分叉频率f_(XZ)和f_(ZX)不存在时,表明电荷转移反应中参数X和Z在全频率范围内存在耦合竞争。总之,借助于特征频率和分叉频率,本文一方面研究了动力学参数和微观结构参数对多孔电极中电荷转移反应的影响,另一方面分析谱图的变化及其背后的阻抗谱特征演化规律。本文研究结果可为阻抗谱的系统仿真和辨识提供理论基础,可为多孔电极内电荷转移反应的竞争分析提供技术支撑,还可为电化学储能系统的优化设计提供诊断工具。 展开更多
关键词 多孔电极 电荷转移反应 电化学阻抗谱 特征频率 分叉频率
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Vacuolar H^(+)-ATPase and BZR1 form a feedback loop to regulate the homeostasis of BR signaling inArabidopsis 被引量:3
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作者 Yu-Tong Jiang Lu-Han Yang +5 位作者 Ji-Xuan Zheng Xian-Chen Geng yu-xuan bai Yu-Chen Wang Hong-Wei Xue Wen-Hui Lin 《Molecular Plant》 SCIE CSCD 2023年第12期1976-1989,共14页
Brassinosteroid(BR)is a vital plant hormone that regulates plant growth anddevelopment.BRASSINAZOLE RESISTANT1(BZR1)is a key transcription factor in BR signaling,and its nucleocytoplasmic localization is crucial for B... Brassinosteroid(BR)is a vital plant hormone that regulates plant growth anddevelopment.BRASSINAZOLE RESISTANT1(BZR1)is a key transcription factor in BR signaling,and its nucleocytoplasmic localization is crucial for BR signaling.However,the mechanisms that regulate BzR1 nucleocytoplasmic distribution and thus the homeostasis of BR signaling remain largely unclear.The vacuole is the largest organelle in mature plantcells and plays a key role in maintenance of cell ular pH,storage of intracellular substances,and transport ofions.In this study,weuncovered anovel mechanismof BR signaling homeostasis regulatedbythe vacuolar H+-ATPase(V-ATPase)and BZR1 feedback loop.Our results revealed that the vha-a2 vha-a3 mutant(vha2,lacking V-ATPase activity)exhibits enhanced BR signaling with increased total amount of BZR1,nuclearlocalized BZR1,and the ratio of BZR1/phosphorylated BZR1 in the nucleus.Further biochemical assays revealed that VHA-a2 and VHA-a3 of V-ATPase interact with the BZR1 protein through a domain that is conserved across multiple species.VHA-a2 and VHA-a3 negatively regulate BR signaling by interacting with BzR1 and promoting its retention in the tonoplast.Interestingly,a series of molecular analyses demonstrated that nuclear-localized BZR1 could bind directlyto specific motifs in the promoters of VHA-a2 andVHAa3topromote their expression.Taken together,these results suggest that V-ATPase and BzR1 mayforma feedback regulatory loop to maintain thehomeostasis of BR signaling in Arabidopsis,providing new insights into vacuole-mediated regulation of hormone signaling. 展开更多
关键词 BR BZR1 VACUOLE V-ATPASE TONOPLAST
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