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以氧化石墨烯(GO)作为增强光催化剂活性的调节剂, 采用一步水热法制备钼酸铋/氧化石墨烯(Bi2MoO6/GO)异质结光催化剂, 其可见光响应拓展至570 nm, 带隙能降至2.56 eV. 当mBi2MoO6/mGO=100∶1时, Bi2MoO6/GO(100∶1)光催化剂在可见光的辐射下, 对水溶液中四环素和喹诺酮类抗生素选择性的高效催化降解去除能力为Bi2MoO6的2.1倍. Bi2MoO6/GO(100∶1)光催化剂活性的提高依赖于范德华力作用下的二维Bi2MoO6纳米片-二维GO纳米片界面的紧密接触. 有效的界面接触改善了光生电子的转移和光生载流子的分离. 自由基清除实验结果表明, ?OH起主要作用. 结合高效液相色谱-质谱(HPLC-MS)法对降解产物的分析, 提出了不同光催化剂催化降解恩诺沙星具有相似的降解途径和降解产物. 相似文献
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生命体内的钙离子通道在各种生物功能调节过程及生命活动中起着至关重要的作用. 模仿生物体中钙离子通道的各种功能性, 构建人工智能通道, 并研究通道中的钙离子输运性能成为一项非常重要的研究课题. 通过重粒子轰击技术及径迹刻蚀方法在高分子聚合物薄膜上设计并制备了一种非对称的锥形多孔纳米通道. 并且通过在锥形纳米通道内壁修饰功能分子O-磷酸基L-络氨酸(OPLT)使纳米通道具有pH与钙离子协同响应的功能. 此体系模仿了生物体中钙离子响应的离子通道的离子输运行为, 及类似二极管的离子整流特性, 并表现出了稳定的离子门控特性及可逆性. 当pH为5时, 通道内壁修饰的OPLT中的氨基使通道内壁显正电性, 通道表现为选择阴离子, 而排斥阳离子的离子选择输运性能, 加入钙离子后离子电流并无明显变化, 此时纳米通道不具有钙离子响应性质; 当pH为9时, OPLT中的磷酸根基团使通道内壁呈现负电性, 通道表现出选择阳离子, 而排斥阴离子的离子选择输运性能, 此时向纳米系统中加入钙离子, 钙离子与磷酸根离子络合, 离子电流改变. 即OPLT修饰的纳米通道具有pH与钙离子协同响应的性能. 相似文献
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蔬菜漂烫过程对营养性成分保持的影响 总被引:1,自引:0,他引:1
即食型蔬菜是一种特殊的脱水蔬菜,是高附加值的蔬菜深加工产品,它具有耐储藏、体积轻便和一定的外形观感、适合的口感等优点,一直是世界蔬菜贸易中的重要食品[1]. 相似文献
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Fe(OH)2悬浮液在EDTA作用下氧气氧化生成δ-FeOOH的机理研究 总被引:1,自引:0,他引:1
At room temperature and in the presence of trace EDTA, the formation of δ-FeOOH was studied by the rapid oxidation of Fe(OH)2 suspension with O2. The structural and morphological changes were characterized by various techniques such as XRD, FTIR and TEM. γ-FeOOH and (δ-FeOOH) formed simutaneously in the early period of oxidation. But as the rate of mass transfer was in equilibrium, trace (γ-FeOOH) vanished gradually. Accordingly, pure phase δ-FeOOH was obtained. At the same time, critical amount ratio K of EDTA to Fe2+ was verified. The experiments show that the reactivity, rate of the oxidizing agent and pH of the initial medium were important factors for the formation of pure phase (δ-FeOOH). Under the auxiliary effect of EDTA, the reactivity of O2 was nearly improved to that of H2O2. And the process of the oxidation that Fe(OH)2 suspension was oxidized by O2 under that condition was discussed. 相似文献
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利用裂纹诱导弦挠度函数,建立了悬臂Euler-Bernoulli 中开闭裂纹位置、深度、初始张开角等损伤参数的识别方法.为此,首先将梁中开闭裂纹等效为单向扭转弹簧,给出了考虑裂纹缝隙效应的裂纹梁等效抗弯刚度,并得到悬臂Euler-Bernoulli 开闭裂纹梁弯曲挠度的显式闭合解及裂纹诱导弦挠度函数,证明了裂纹诱导弦挠度的分段线性函数.其次,基于单向扭转弹簧的性质,建立了通过多步加载进行梁中开闭裂纹参数及其上下侧属性的识别方法.最后,通过数值算例验证了本文所建立的开闭裂纹损伤识别方法的适用性和可靠性,考察了裂纹分布位置、深度和初始张开角以及裂纹识别区间和挠度测量误差等参数对识别结果的影响,结果表明:当裂纹处于张开状态时,裂纹处裂纹诱导弦挠度斜率改变量随着施加荷载的增加而增加;当裂纹闭合时,其裂纹诱导弦挠度斜率改变量将保持为常量;裂纹损伤参数的识别误差随测量误差的增加而增加,但整体识别结果具有较高的精度,较好的鲁棒性. 相似文献
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Fe(OH)2悬浮液在EDTA作用下氧气氧化生成δ-FeOOH的机理研究 总被引:2,自引:0,他引:2
At room temperature and in the presence of trace EDTA, the formation of δ-FeOOH was studied by the rapid oxidation of Fe(OH)2 suspension with O2. The structural and morphological changes were characterized by various techniques such as XRD, FTIR and TEM. γ-FeOOH and δ-FeOOH formed simutaneously in the early period of oxidation. But as the rate of mass transfer was in equilibrium, trace γ-FeOOH vanished gradually. Accordingly, pure phase δ-FeOOH was obtained. At the same time, critical amount ratio K of EDTA to Fe^2 was verified. The experiments show that the reactivity, rate of the oxidizing agent and pH of the initial medium were important factors for the formation of pure phase δ-FeOOH. Under the auxiliary effect of EDTA, the reactivity of O2 was nearly improved to that of H2O2. And the process of the oxidation that Fe(OH)2 suspension was oxidized by O2 under that condition was discussed. 相似文献