2019
DOI: 10.1002/adfm.201903478
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Preprogrammed Dynamic Microstructured Polymer Interfaces

Abstract: The advancement of new-generation complex integrated responsive systems depends on the progress in the development of functional stimuli-responsive polymer components that could be put together and engineered to perform in concert as an ensemble. This progress report highlights recent substantial progress in the development of such soft-matter components capable of changes according to preprogrammed scenarios. The components interact via interfaces that play a key role in the performance of the microstructured… Show more

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Cited by 15 publications
(16 citation statements)
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References 206 publications
(75 reference statements)
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“…86 Thus, the pH and thermosensitive PPMs had tunable the pores size, which is beneficial for improving the enzymolysis efficiency based on the nanopore confinement effect. 93,98 P(AA) can be grafted onto the layered polyelectrolyte films. 92 On the other hand, P(AA) as a polyanion and poly(allylamine) [P(AH)] as a polycation 82 can also be modified within the pore-wall by the LBL-assembling method.…”
Section: Strategies For Generating Sr-ppmsmentioning
confidence: 99%
See 1 more Smart Citation
“…86 Thus, the pH and thermosensitive PPMs had tunable the pores size, which is beneficial for improving the enzymolysis efficiency based on the nanopore confinement effect. 93,98 P(AA) can be grafted onto the layered polyelectrolyte films. 92 On the other hand, P(AA) as a polyanion and poly(allylamine) [P(AH)] as a polycation 82 can also be modified within the pore-wall by the LBL-assembling method.…”
Section: Strategies For Generating Sr-ppmsmentioning
confidence: 99%
“…Physical stimuli possess several intrinsic advantages over chemical stimili: noncontact, tunable strength, and temporal and spatial resolution, the SR-PPMs undergo either a reversible or irreversible modification because of bonding, hydrophobic, or hydrophilic interactions, leading to changes in structure or self-assembly at large-length scales. Ideal SR-PPMs can be fabricated via functionalization of the film surface or pores wall (Figure ) and LBL-assembling methods to improve the surface hydrophilicity and to tune the surface charge, which is beneficial for enzyme immobilization. …”
Section: Strategies For Generating Sr-ppmsmentioning
confidence: 99%
“…In some cases, a polymer brush may switch between an attracting and a repelling state with respect to a certain biomolecule, depending on factors in the liquid environment such as temperature, [4] salt content [5] or pH [5] . In principle, this is highly interesting for applications as it creates responsive interfaces [1a,d,f] that may be used to capture and subsequently release proteins for instance.…”
Section: Introductionmentioning
confidence: 99%
“…Various stimuli allow controlling appropriate biodegradation profiles: as it was shown, for example, for polymers suspended in a solution [16], chemical triggering for bringing polymers together [17] or laser remote release of materials immobilized on bio-coating [18-20] through a localized temperature rise [21][22][23].The addition of particles with encapsulated biomolecules allowed the implementation of the concept of both hardness modification and drug delivery with the coatings [24,25]. Such modification of the coatings can be well suited for applications in pharmacology [26], where delivery of molecules is just as essential as control over physico-chemical properties of films [27,28] It is interesting to note that functionalization of hybrid assemblies [29] can be made with micro-or nano-particles, where the former size is more suited for thicker polymeric films and hydrogels [30,31], while smaller nanoparticles are better suited for tuning mechanical properties of less gelly films [32]. It is envisioned that the distribution [33] of such particles will allow to fully control the softness-hardness of films and other physico-chemical properties.In addition to inorganic particles, various capsules provide the means of yet another type of modification of polymer-based films to promote the interaction with cells.…”
mentioning
confidence: 99%
“…The addition of particles with encapsulated biomolecules allowed the implementation of the concept of both hardness modification and drug delivery with the coatings [24,25]. Such modification of the coatings can be well suited for applications in pharmacology [26], where delivery of molecules is just as essential as control over physico-chemical properties of films [27,28] It is interesting to note that functionalization of hybrid assemblies [29] can be made with micro-or nano-particles, where the former size is more suited for thicker polymeric films and hydrogels [30,31], while smaller nanoparticles are better suited for tuning mechanical properties of less gelly films [32]. It is envisioned that the distribution [33] of such particles will allow to fully control the softness-hardness of films and other physico-chemical properties.…”
mentioning
confidence: 99%