| 机械可控纳米劈裂法实现单分子电导值的测量 |
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| 引用本文: | 王青玲,袁杰,何开华,陈绮丽,龙光芝,向东. 机械可控纳米劈裂法实现单分子电导值的测量[J]. 纳米技术与精密工程, 2013, 0(4): 285-291 |
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| 作者姓名: | 王青玲 袁杰 何开华 陈绮丽 龙光芝 向东 |
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| 作者单位: | [1]中国地质大学机械与电子信息学院,武汉430074 [2]中国地质大学环境学院,武汉430074 [3]中国地质大学数学与物理学院,武汉430074 |
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| 基金项目: | 国家自然科学基金资助项目(51102218);中央高校基础研究资助项目(CUGL120220). |
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| 摘 要: | 为了获得电子在单分子结中传输的特性,研制了具有高稳定性的机械可控纳米劈裂装置芯片.利用此芯片及相应机械装置,获得了能在皮米级精度上操纵间距的纳米电极对;并实现了稳定的单个金属离子所桥接的分子结(电极-分子-金属离子-分子-电极).在保持配合物不变的前提下,置换不同金属离子,测量了其所桥接的单分子结的电导值,发现Ca2+络合物的电导值>>Zn2+络合物的电导值>Ni2+络合物的电导值.结合密度泛函理论的计算,验证了所得实验装置的可靠性及实验结果的正确性.
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| 关 键 词: | 分子电子 纳米电极 单分子电导 金属离子络合物 机械可控纳米劈裂 |
Utilization of Mechanically Controllable Break Junction for Single Molecule Conductance Measurement |
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| Wang Qingling,Yuan Jie,He Kaihua,Chen Qili,Long Guangzhi,Xiang Dong. Utilization of Mechanically Controllable Break Junction for Single Molecule Conductance Measurement[J]. Nanotechnology and Precision Engineering, 2013, 0(4): 285-291 |
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| Authors: | Wang Qingling Yuan Jie He Kaihua Chen Qili Long Guangzhi Xiang Dong |
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| Affiliation: | 1. Facuhy of Mechanical and Electronic Information, China University of Geosciences, Wuhan 430074, China ; 2. School of Environmental Studies, China University of Geosciences, Wuhan 430074, China; 3. School of Mathematics and Physics, China University of Geosciences, Wuhan 430074, China) |
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| Abstract: | In order to investigate the electrical properties of electron transport through the single mole- cule, a chip for the mechanically controllable break junction (MCBJ) was fabricated. With such a chip and corresponding mechanical setup, a pair of nanoelectrodes can be obtained and the distance between the electrodes can be adjusted with pieometer accuracy. The molecular junctions bridged by metal ion ( electrode-molecule-metal ion-molecule-electrode junctions) were established using the technology of me- chanically controllable break junction. The corresponding current-voltage characterization was studied. Furthermore, the influence of different metal ions on complexes conductivity was investigated, while leav- ing the ligands mainly unchanged. The conductance of the junctions depends strongly on the kind of bridged metal ion, and the order is Ca2+ junction 〉〉 Zn2+ junction 〉 Ni2+ junction. Supported by the density functional theory calculation, the reliability of our device and the accuracy of the data were veri- fied. |
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| Keywords: | molecular electronics nanoelectrodes single molecule conductance metal ion complexes mechanically controllable break junction |
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