Enhanced Ionic Transport Mechanism by Gramicidin A Confined Inside Nanopores Tuned by Atomic Layer Deposition

被引：38

作者：

Abou Chaaya, Adib ^{[1
]}

Le Poitevin, Mathilde ^{[1
]}

Cabello-Aguilar, Simon ^{[1
]}

Balme, Sebastien ^{[1
,2
]}

Bechelany, Mikhael ^{[1
]}

Kraszewski, Sebastian ^{[3
]}

Picaud, Fabien ^{[3
]}

cambedouzou, Julien ^{[4
]}

Balanzat, Emmanuel ^{[5
]}

Janot, Jean-Marc ^{[1
]}

Thami, Thierry ^{[1
]}

Miele, Philippe ^{[1
]}

Dejardin, Philippe ^{[1
]}

机构：

[1] UMR5635 CNRS UM2 ENSCM, Inst Europeen Membranes, F-34095 Montpellier 5, France

[2] UMR 5253 CNRS UM2 ENSCM UM1, Inst Charles Gerhardt, F-34095 Montpellier 5, France

[3] Univ Franche Comte, CHU Besancon, Lab Nanomed Imagerie & Therapeut, F-25030 Besancon, France

[4] UMR 5257 CEA CNRS UM2 ENSCM Bagnols Ceze, Inst Chim Separat Marcoule, Lab Diffus Diffract, Caen, France

[5] UMR6252 CEA CNRS ENSICAEN, Ctr Rech Ions Mat & Photon, F-14050 Caen 4, France

来源：

JOURNAL OF PHYSICAL CHEMISTRY C | 2013年 / 117卷 / 29期

关键词：

MOLECULAR-DYNAMICS; ELECTRICAL-PROPERTIES; BINDING-SITES; A CHANNELS; SELECTIVITY; OXIDE; ENERGY; HYBRID; POTASSIUM; MEMBRANE;

D O I：

10.1021/jp403330d

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

The confinement and the understanding of ion transport through ionic channels when they are confined inside solid-state nanopores smaller than 10 nm remains a challenge. Here we report on the fabrication of biomimetic nanopores with high length (5 mu m)/diameter (smaller than 10 nm) ratio obtained using both a track-etched technique and atomic layer deposition on flexible membranes. These membranes present uniform hydrophobic nanopores with a low roughness inside the pores. Gramicidin A is then confined inside nanopores (diameter 10.6, 5.7, and similar to 2 nm) leading to the NaCl ionic transport mechanism through a hybrid nanopore similar to the biological ones especially for small diameter (5.7 and similar to 2 nm).

引用

页码：15306 / 15315

页数：10

共 50 条

[1] Surface engineering of synthetic nanopores by atomic layer deposition and their applications
CeMing WANG
DeLin KONG
Qiang CHEN
JianMing XUE
Frontiers of Materials Science, 2013, 7 (04) : 335 - 349+311
[2] Surface engineering of synthetic nanopores by atomic layer deposition and their applications
Wang, Ce-Ming
Kong, De-Lin
Chen, Qiang
Xue, Jian-Ming
FRONTIERS OF MATERIALS SCIENCE, 2013, 7 (04) : 335 - 349
[3] Surface engineering of synthetic nanopores by atomic layer deposition and their applications
Ce-Ming Wang
De-Lin Kong
Qiang Chen
Jian-Ming Xue
Frontiers of Materials Science, 2013, 7 : 335 - 349
[4] Modeling variations in the composition of ionic liquid-solvent mixtures confined inside nanopores
Fang, Alta
Smolyanitsky, Alex
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2019, 258
[5] Atomic Layer Deposition of Quantum Confined Nanostructures on Particles
King, D. M.
Liang, Xinhua
Li, Jianhua
Johnson, Samantha I.
Weimer, A. W.
ATOMIC LAYER DEPOSITION APPLICATIONS 5, 2009, 25 (04): : 67 - 84
[6] Confined nanocatalysts in nanotubes produced by atomic layer deposition
Qin, Yong
Gao, Zhe
Zhang, Bin
Chen, Chaoqiu
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2017, 254
[7] Design and Properties of Confined Nanocatalysts by Atomic Layer Deposition
Gao, Zhe
Qin, Yong
ACCOUNTS OF CHEMICAL RESEARCH, 2017, 50 (09) : 2309 - 2316
[8] A Markov chain approach to simulate Atomic Layer Deposition chemistry and transport inside nanostructured substrates
Yanguas-Gil, Angel
Elam, Jeffrey W.
THEORETICAL CHEMISTRY ACCOUNTS, 2014, 133 (04) : 1 - 13
[9] Fabrication of nanofluidic diodes with polymer nanopores modified by atomic layer deposition
Sheng, Qian
Wang, Lin
Wang, Ceming
Wang, Xinwei
Xue, Jianming
BIOMICROFLUIDICS, 2014, 8 (05):
[10] A Markov chain approach to simulate Atomic Layer Deposition chemistry and transport inside nanostructured substrates
Angel Yanguas-Gil
Jeffrey W. Elam
Theoretical Chemistry Accounts, 2014, 133

← 1 2 3 4 5 →