2005
DOI: 10.1002/adma.200401123
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Direct Access to Stable, Freestanding Polymer Membranes by Layer‐by‐Layer Assembly of Polyelectrolytes

Abstract: The alternating, layer-by-layer assembly of oppositely charged polyelectrolytes, often referred to as electrostatic self-assembly (ESA), has been well-established in the past decade for the preparation of ultrathin polymer films with precise thicknesses of between 1 and 1000 nm. [1,2] The method is based on the formation of water-insoluble, nearly stoichiometric complexes of polycations and polyanions (so-called ªsymplexesº) at an interface. Characteristically, the preparation of ESA films involves the use of … Show more

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Cited by 76 publications
(76 citation statements)
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“…Mallwitz and Laschewsky have been able to arrive at a solution to this problem. [43] Unlike other preparation processes, which require the growth of a film and its removal from a substrate, Laschewsky and his group have devised a strategy for the direct assembly of ultrathin freestanding LbL films into large openings. The initial PAH/PAA LbL films spanning the large openings of a TEM grid are formed by three dipping cycles without the usual rinsing steps.…”
Section: Lbl Structures By Direct Dippingmentioning
confidence: 99%
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“…Mallwitz and Laschewsky have been able to arrive at a solution to this problem. [43] Unlike other preparation processes, which require the growth of a film and its removal from a substrate, Laschewsky and his group have devised a strategy for the direct assembly of ultrathin freestanding LbL films into large openings. The initial PAH/PAA LbL films spanning the large openings of a TEM grid are formed by three dipping cycles without the usual rinsing steps.…”
Section: Lbl Structures By Direct Dippingmentioning
confidence: 99%
“…[31] Planar, ultrathin, freestanding LbL films have been developed by several groups. [28,29,42,43] Fery and co-workers have developed a novel approach for making arrays of planar LbL multilayer films by using sacrificial layers. [29] Laschewsky and his group have reported a strategy to directly prepare ultrathin freestanding arrays of LbL films without sacrificial precursor sublayers.…”
Section: Freestanding Lbl Structuresmentioning
confidence: 99%
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“…The nanosheets represent unique properties such as high transparency and flexibility due to their dimensions (centimeter size but only tens-of-nanometers thickness) [1]. The techniques that have been adopted to prepare these sheets include the utilization of polymers and/or inorganic materials such as layer-by-layer nanosheets of polyelectrolytes [2][3][4], assemblies of triblock copolymers [5], cross-linked self-assembled monolayers [6], amphiphilic Langmuir-Blodgett nanosheets [7,8], sol/gel interpenetrating network nanomembranes [9], and graphene nanosheets dissociated from graphite [10]. These nanosheets have been developed for various research fields, e.g.…”
Section: Introductionmentioning
confidence: 99%