单锥形纳米孔的制备和离子传导特性研究

物理学报

单锥形纳米孔的制备和离子传导特性研究

, , ,

朱晓蕊, 王卫东, 秦广雍?, 焦浈. 2013: 单锥形纳米孔的制备和离子传导特性研究, 物理学报, null(7): 423-426. doi: 10.7498/aps.62.077802

引用本文:

朱晓蕊, 王卫东, 秦广雍?, 焦浈. 2013: 单锥形纳米孔的制备和离子传导特性研究, 物理学报, null(7): 423-426. doi: 10.7498/aps.62.077802

2013: Fabrication and electrolytic conduction of single conical nanopores?, Acta Physica Sinica, null(7): 423-426. doi: 10.7498/aps.62.077802

Citation:

2013: Fabrication and electrolytic conduction of single conical nanopores?, Acta Physica Sinica, null(7): 423-426. doi: 10.7498/aps.62.077802

单锥形纳米孔的制备和离子传导特性研究

郑州大学物理工程学院,离子束生物工程实验室,郑州 450052

Fabrication and electrolytic conduction of single conical nanopores?

摘要: 用荷能重离子径迹刻蚀的方法在高分子多聚物膜(PET)上制备出单锥形纳米孔.刻蚀过程通过监测跨膜电流来控制,最大刻蚀电流Imax不同,得到的锥形孔小孔孔径也不同.研究单锥形纳米孔在KCl溶液中的I-V 曲线发现,单锥形纳米孔的离子传导呈现出不对称特性,该现象称为整流效应,整流系数γ大小随纳米小孔孔径大小和电解质溶液浓度而变化.
- 径迹刻蚀 /
- 纳米孔 /
- 离子传导 /
- 整流系数
Abstract: Single conical nanopores were fabricated by etching single-ion-irradiated polymer (ethylene terephthalate) (PET) films. The etching process was monitored by measuring the transmembrane current. A series of conical nanopores with different tip sizes were obtained at different maximum etching currents,“Imax”. Results showed that it was possible to control the tip diameter by terminating etching at a certain Imax. The current–voltage characteristic of the nanopores in KCl solution was investigated. Results showed also that the ionic conduction was asymmetrical, this phenomenon is called rectification. The current rectification coefficient, was influenced by the tip size and electrolyte concentration.

计量

文章访问数: 358
HTML全文浏览数: 76
PDF下载数: 12
施引文献: 0

单锥形纳米孔的制备和离子传导特性研究

郑州大学物理工程学院,离子束生物工程实验室,郑州 450052

关键词:

摘要: 用荷能重离子径迹刻蚀的方法在高分子多聚物膜(PET)上制备出单锥形纳米孔.刻蚀过程通过监测跨膜电流来控制,最大刻蚀电流Imax不同,得到的锥形孔小孔孔径也不同.研究单锥形纳米孔在KCl溶液中的I-V 曲线发现,单锥形纳米孔的离子传导呈现出不对称特性,该现象称为整流效应,整流系数γ大小随纳米小孔孔径大小和电解质溶液浓度而变化.

English Abstract

全文HTML

参考文献 (0)

/

下载: 全尺寸图片幻灯片

分享

用微信扫码二维码

分享至好友和朋友圈

返回