Selective discrimination of small hydrophobic biomolecules based on ion-current rectification in conically shaped nanochannel

Guo Z.; Wang J.; Wang E.

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Selective discrimination of small hydrophobic biomolecules based on ion-current rectification in conically shaped nanochannel

机译：基于离子电流整流的锥形纳米通道中对小疏水性生物分子的选择性判别

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In this study, based on ion-current rectification in the conically shaped nanochannel embedded in polyethylene terephthalate (PET) membrane, we have selectively discriminated three small biomolecules. Because three positive biomolecules (Hoechst 33342, Propidium and Bupivacaine) have different hydrophobicities, their interactions with inside wall of the conical nanochannel are different and their binding affinities can be derived from Langmuir absorption model. Therefore, we can successfully discriminate these small biomolecules. The highest binding constant was obtained for the small molecule with highest hydrophobicity. Another interesting result is that the detection limit for the small molecule with the highest binding constant shifts to submicromole.

机译：在这项研究中，基于嵌入聚对苯二甲酸乙二醇酯（PET）膜的圆锥形纳米通道中的离子流整流，我们有选择地区分了三个小生物分子。由于三个阳性生物分子（Hoechst 33342，Propidium和布比卡因）具有不同的疏水性，因此它们与圆锥形纳米通道内壁的相互作用不同，并且它们的结合亲和力可从Langmuir吸收模型得出。因此，我们可以成功地区分这些小生物分子。对于具有最高疏水性的小分子，获得了最高的结合常数。另一个有趣的结果是，具有最高结合常数的小分子的检测限转移到了亚微摩尔。

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《Talanta: The International Journal of Pure and Applied Analytical Chemistry》 |2012年第null期|共5页
作者
Guo Z.; Wang J.; Wang E.;
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正文语种 eng
中图分类分析化学;
关键词
Biomimetic; Conically shaped nanochannel; Ion current rectification; Polymer membrane; Sensors; Small hydrophobic biomolecules;

机译：仿生;圆锥形纳米通道;离子电流整流;聚合物膜;传感器;小疏水生物分子;

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1. Selective discrimination of small hydrophobic biomolecules based on ion-current rectification in conically shaped nanochannel [J] . Guo Z., Wang J., Wang E. Talanta: The International Journal of Pure and Applied Analytical Chemistry . 2012,第Null期

机译：基于离子电流整流的锥形纳米通道中对小疏水性生物分子的选择性判别
2. Influence of temperature and electroosmotic flow on the rectification behavior of conical nanochannels [J] . Hsu Jyh-Ping, Chen Yung-Che, Chen Yu-Min, Journal of the Taiwan Institute of Chemical Engineers . 2018,第期

机译：温度和电渗流对锥形纳米南切尔的整流行为的影响
3. Fabrication of hydrogel-coated single conical nanochannels exhibiting controllable ion rectification characteristics [J] . Wang Linlin, Zhang Huacheng, Yang Zhe, Physical chemistry chemical physics: PCCP . 2015,第9期

机译：具有可控的离子整流特性的水凝胶包覆的单个锥形纳米通道的制备
4. MWCNTS ARRAY INCORPORATED NANOCHANNEL WITH CHARGE-SELECTIVITY FOR HIGH EFFICIENT BIOMOLECULE PRECONCENTRATION [C] . Ren-Guei Wu, Yi-Shiuan Wu, Chung-Shi Yang, International Solid-State Sensors, Actuators and Microsystems Conference . 2009

机译：MWCNT阵列纳入纳米通道，充电选择性用于高效的生物分子预浓度
5. Particle transport and ion current rectification in conical-shaped nanopores [D] . Lan, Wenjie 2011

机译：圆锥形纳米孔中的粒子传输和离子流整流
6. Deformability-based circulating tumor cell separation with conical-shaped microfilters: Concept optimization and design criteria [O] . Mohammad Aghaamoo, Zhifeng Zhang, Xiaolin Chen, 2015

机译：锥形微滤器基于可变形性的循环肿瘤细胞分离：概念优化和设计标准
7. Ion current rectification and rectification inversion in conical nanopores: a perm-selective view [O] . Dmitry Momotenko, Fernando Cortés-Salazar, Jacques Josserand, 2011

机译：锥形纳米孔中的离子电流整流和整流倒置：渗透选择性视图

Selective discrimination of small hydrophobic biomolecules based on ion-current rectification in conically shaped nanochannel

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