Click-chemistry of polymersomes on nanoporous polymeric surfaces

Christian Rein; Steen Nissen; Mariusz Grzelakowski; Morten Peter Meldal

doi:10.1002/pola.28069

Click-chemistry of polymersomes on nanoporous polymeric surfaces

Christian Rein, Steen Nissen, Mariusz Grzelakowski, Morten Peter Meldal

Department of Chemistry

6 Citations (Scopus)

Abstract

A facile click chemistry method of immobilizing surface-functionalized polymer vesicles on casted polymeric PAN substrates is described. Microporous PAN membranes were subjected to hydrochloric acid hydrolysis to obtain surface carboxylates. The carboxylic groups were activated with EDC/NHS-solution and were then reacted with propargylamine to introduce alkyne groups for CuAAC reactions. The alkyne functionality of the modified membrane surface was verified by reaction with an azide functional click dye both before and after the immobilization of azide-functionalized ABA vesicles. The efficient postfunctionalization of the membrane with alkyne allowed quantitative coverage of the membrane surface with a polymersome monolayer, as confirmed by immobilization of polymerzomes loaded with a fluorescent dye. Polymersome monolayers immobilized on alkyne functionalized PAN-membranes were characterized by cryo-SEM and monolayers were confirmed by atom force microscopy. These methods opens up new avenues for preparing membrane based filtration and sensor technologies.

Original language	English
Journal	Journal of Polymer Science. Part A, Polymer Chemistry
Volume	54
Issue number	13
Pages (from-to)	2032-2039
Number of pages	8
ISSN	0887-624X
DOIs	https://doi.org/10.1002/pola.28069
Publication status	Published - 1 Jul 2016

Access to Document

10.1002/pola.28069

Cite this

@article{43930bc4ff4a4f7c856aedfd5653fc85,

title = "Click-chemistry of polymersomes on nanoporous polymeric surfaces",

abstract = "A facile click chemistry method of immobilizing surface-functionalized polymer vesicles on casted polymeric PAN substrates is described. Microporous PAN membranes were subjected to hydrochloric acid hydrolysis to obtain surface carboxylates. The carboxylic groups were activated with EDC/NHS-solution and were then reacted with propargylamine to introduce alkyne groups for CuAAC reactions. The alkyne functionality of the modified membrane surface was verified by reaction with an azide functional click dye both before and after the immobilization of azide-functionalized ABA vesicles. The efficient postfunctionalization of the membrane with alkyne allowed quantitative coverage of the membrane surface with a polymersome monolayer, as confirmed by immobilization of polymerzomes loaded with a fluorescent dye. Polymersome monolayers immobilized on alkyne functionalized PAN-membranes were characterized by cryo-SEM and monolayers were confirmed by atom force microscopy. These methods opens up new avenues for preparing membrane based filtration and sensor technologies.",

author = "Christian Rein and Steen Nissen and Mariusz Grzelakowski and Meldal, {Morten Peter}",

year = "2016",

month = jul,

day = "1",

doi = "10.1002/pola.28069",

language = "English",

volume = "54",

pages = "2032--2039",

journal = "Journal of Polymer Science, Part A: Polymer Chemistry",

issn = "0887-624X",

publisher = "JohnWiley & Sons, Inc.",

number = "13",

}

TY - JOUR

T1 - Click-chemistry of polymersomes on nanoporous polymeric surfaces

AU - Rein, Christian

AU - Nissen, Steen

AU - Grzelakowski, Mariusz

AU - Meldal, Morten Peter

PY - 2016/7/1

Y1 - 2016/7/1

N2 - A facile click chemistry method of immobilizing surface-functionalized polymer vesicles on casted polymeric PAN substrates is described. Microporous PAN membranes were subjected to hydrochloric acid hydrolysis to obtain surface carboxylates. The carboxylic groups were activated with EDC/NHS-solution and were then reacted with propargylamine to introduce alkyne groups for CuAAC reactions. The alkyne functionality of the modified membrane surface was verified by reaction with an azide functional click dye both before and after the immobilization of azide-functionalized ABA vesicles. The efficient postfunctionalization of the membrane with alkyne allowed quantitative coverage of the membrane surface with a polymersome monolayer, as confirmed by immobilization of polymerzomes loaded with a fluorescent dye. Polymersome monolayers immobilized on alkyne functionalized PAN-membranes were characterized by cryo-SEM and monolayers were confirmed by atom force microscopy. These methods opens up new avenues for preparing membrane based filtration and sensor technologies.

AB - A facile click chemistry method of immobilizing surface-functionalized polymer vesicles on casted polymeric PAN substrates is described. Microporous PAN membranes were subjected to hydrochloric acid hydrolysis to obtain surface carboxylates. The carboxylic groups were activated with EDC/NHS-solution and were then reacted with propargylamine to introduce alkyne groups for CuAAC reactions. The alkyne functionality of the modified membrane surface was verified by reaction with an azide functional click dye both before and after the immobilization of azide-functionalized ABA vesicles. The efficient postfunctionalization of the membrane with alkyne allowed quantitative coverage of the membrane surface with a polymersome monolayer, as confirmed by immobilization of polymerzomes loaded with a fluorescent dye. Polymersome monolayers immobilized on alkyne functionalized PAN-membranes were characterized by cryo-SEM and monolayers were confirmed by atom force microscopy. These methods opens up new avenues for preparing membrane based filtration and sensor technologies.

U2 - 10.1002/pola.28069

DO - 10.1002/pola.28069

M3 - Journal article

SN - 0887-624X

VL - 54

SP - 2032

EP - 2039

JO - Journal of Polymer Science, Part A: Polymer Chemistry

JF - Journal of Polymer Science, Part A: Polymer Chemistry

IS - 13

ER -

Click-chemistry of polymersomes on nanoporous polymeric surfaces

Abstract

Access to Document

Fingerprint

Cite this