Fast and reversible functionalization of a single nanopore based on layer-by-layer polyelectrolyte self-assembly for tuning current rectification and designing sensors

Lepoitevin Mathilde; Jamilloux Bastien; Bechelany Mikhael; Balanzat Emmanuel; Janot Jean-Marc; Balme Sebastien

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Fast and reversible functionalization of a single nanopore based on layer-by-layer polyelectrolyte self-assembly for tuning current rectification and designing sensors

机译：基于层 - 逐层聚电解质自组装的单纳米孔的快速可逆官能化，用于调谐电流整流和设计传感器

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Single track-etched nanopores offer an opportunity to develop different nano-devices such as, ionic diodes or biosensors. Here we report an original approach to functionalize conical nanopores based on layer-by-layer self-assembly of poly-L-lysine and poly(styrene sulfonate). Our results show the possibility to modulate the current rectification properties and to reduce the tip diameter of the nanopore. This strategy permits a fast (less than 1 minute) and reversible functionalization of the nanopore. Based on this, we demonstrate applications in order to detect differences in polyanion (poly(styrene sulfonate), chondroitin sulfate and ssDNA) and avidin using PLL grafted with specific functions (mPEG-biotin).

机译：单轨蚀刻纳米孔提供了开发不同纳米器件，例如离子二极管或生物传感器的机会。在这里，我们报告了一种原始方法，以基于聚-L-赖氨酸的层和聚（苯乙烯磺酸盐）的层自组装来官能化锥形纳米孔。我们的结果表明，可以调节电流整流性能并降低纳米孔的尖端直径。该策略允许快速（小于1分钟）和纳米孔的可逆官能化。基于此，我们证明了应用以检测多沉（聚（苯乙烯磺酸盐），硫酸软骨素和SSDNA）的差异，使用PLL接枝具有特定功能（MPEG-生物素）。

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来源
《RSC Advances》 |2016年第38期|共6页
作者
Lepoitevin Mathilde; Jamilloux Bastien; Bechelany Mikhael; Balanzat Emmanuel; Janot Jean-Marc; Balme Sebastien;
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作者单位

UMR5635 UM ENSM CNRS Inst Europeen Membranes Pl Eugene Bataillon F-34095 Montpellier 5 France;

UMR5635 UM ENSM CNRS Inst Europeen Membranes Pl Eugene Bataillon F-34095 Montpellier 5 France;

UMR5635 UM ENSM CNRS Inst Europeen Membranes Pl Eugene Bataillon F-34095 Montpellier 5 France;

UMR6252 CEA CNRS ENSICAEN Ctr Rech Ions Mat &

Photon 6 Blvd Marechal Juin F-14050 Caen 4 France;

UMR5635 UM ENSM CNRS Inst Europeen Membranes Pl Eugene Bataillon F-34095 Montpellier 5 France;

UMR5635 UM ENSM CNRS Inst Europeen Membranes Pl Eugene Bataillon F-34095 Montpellier 5 France;

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正文语种 eng
中图分类化学;
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1. Fast and reversible functionalization of a single nanopore based on layer-by-layer polyelectrolyte self-assembly for tuning current rectification and designing sensors [J] . Lepoitevin Mathilde, Jamilloux Bastien, Bechelany Mikhael, RSC Advances . 2016,第38期

机译：基于层 - 逐层聚电解质自组装的单纳米孔的快速可逆官能化，用于调谐电流整流和设计传感器
2. Dual pH Gradient and Voltage Modulation of Ion Transport and Current Rectification in Biomimetic Nanopores Functionalized with a pH-Tunable Polyelectrolyte [J] . Lin Tsai-Wei, Hsu Jyh-Ping, Lin Chih-Yuan, The journal of physical chemistry, C. Nanomaterials and interfaces . 2019,第19期

机译：用PH可调谐聚电解质官能化离子输送离子输送和电流整流的双pH梯度和电压调节
3. Rectification of ionic current in nanopores functionalized with bipolar polyelectrolyte brushes [J] . Chih-Yuan Lin, Jyh-Ping Hsu, Li-Hsien Yeh Sensors and Actuators . 2018,第APRa期

机译：用双极聚电解质刷功能化的纳米孔中的离子电流整流
4. Layer-by-Layer Nano Self-Assembly of pH Sensors Based on Polyelectrolytes and Carboxylated Carbon Nanotubes [C] . D. Lee, T. Cui Microfabricated and Nanofabricated Systems for MEMS/NEMS 8 . 2008

机译：基于聚电解质和羧化碳纳米管的pH传感器的层状纳米自组装
5. Metal and metal oxide nanoparticles functionalized single-walled carbon nanotube based gas sensors. [D] . Jawahar Hussaini, Syed Mubeen. 2009

机译：金属和金属氧化物纳米粒子功能化了基于单壁碳纳米管的气体传感器。
6. Designing Microparticle-Impregnated Polyelectrolyte Composite: The Combination of ATRP Fast Azidation and Click Reaction Using a Single-Catalyst Single-Pot Strategy [O] . Ranjit De, Minhyuk Jung, Hohjai Lee 2019

机译：设计微粒浸渍的聚电解质复合材料：使用单催化剂单罐策略的ATRP快速叠氮化和点击反应的组合
7. Solution Conditions Tune and Optimize Loading of Therapeutic Polyelectrolytes into Layer-by-Layer Functionalized Liposomes [O] . Santiago Correa, Natalie Boehnke, Elad Deiss-Yehiely, 2019

机译：溶液条件调谐和优化治疗聚电解物的加载到逐层官能化脂质体中

Fast and reversible functionalization of a single nanopore based on layer-by-layer polyelectrolyte self-assembly for tuning current rectification and designing sensors

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