In-situ PLL-g-PEG Functionalized Nanopore for Enhancing Protein Characterization

Mostafa Salehirozveh; Anne-Kathrine Kure Larsen; Milos Stojmenovic; Federico Thei; Mingdong Dong

doi:10.1002/asia.202300515

Published July 27, 2023 | Version Accepted after revision

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In-situ PLL-g-PEG Functionalized Nanopore for Enhancing Protein Characterization

1. Elements srl
2. Aarhus University
3. Computer Science Singidunum university, Serbia

In-situ functionalization of thin PLL-g-PEG on SiN nanopores based on the self-assembly and electrostatic interaction between the nanopore and PLL backbone of PLL-g-PEG is reported. This functionalization of SiN nanopores leads to non-sticky protein translocation and volume estimation of individual proteins. Most significantly, our in situ method is monitorable for direct evaluation of functionalization before non-sticky protein translocation.

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European Commission
SENTINEL – Single-Entity NanoElectrochemistry 812398

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Created: August 9, 2023
Modified: August 9, 2023

In-situ PLL-g-PEG Functionalized Nanopore for Enhancing Protein Characterization

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