Altering Silk Film Surface Properties through Lotus‐Like Mechanisms

Lintz, Eileen S.; Neinhuis, Christoph; Scheibel, Thomas

doi:10.1002/mame.201700637

Cited by 3 publications

(1 citation statement)

References 46 publications

(36 reference statements)

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“…Therefore, it can be concluded that the water uptake of the thin silk film can be neglected, and the determined water-induced swelling of the bilayer can be attributed to the chitosan layer. Mechanical properties of the single layers were already studied before by Wohlrab et al, 43 Lintz et al, 44 and Alekseeva et al 45 The Young's modulus of eADF4(C16) films is 3.2 MPa 44 and that of chitosan films is 7.06 MPa. 45 Once rolled, the tubes kept Scheme 1.…”

Section: Resultsmentioning

confidence: 96%

Self-Rolling Refillable Tubular Enzyme Containers Made of Recombinant Spider Silk and Chitosan

Aigner

Scheibel

2019

ACS Appl. Mater. Interfaces

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Encapsulation of enzymes is often necessary to stabilize them against environmental conditions or to protect them from other harmful enzymes such as proteases. Here, a refillable spatial confinement system was produced using a fully degradable self-rolling biopolymer bilayer. The enzyme containers comprise spider silk and chitosan and enable one-pot reactions in the micro- to milliliter regime by trapping the enzyme inside the semipermeable tube and allow the substrate and/or product either to diffuse freely or to be entrapped. The tubes are stable toward several organic and aqueous solvents. A one-tube system with esterase-2 was used to establish the system. Further, a two-tube system was applied to mimic enzymatic cascades, where the enzymes have to be separated, because they, for example, inhibit each other. The entrapment mode was also tested in the two-tube system, which is beneficial for toxic products or for obtaining high concentrations of the desired product.

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Section: Resultsmentioning

confidence: 96%

Self-Rolling Refillable Tubular Enzyme Containers Made of Recombinant Spider Silk and Chitosan

Aigner

Scheibel

2019

ACS Appl. Mater. Interfaces

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Robust natural biomaterial based flexible artificial skin sensor with high transparency and multiple signals capture

Zhu

Tang

et al. 2020

Chemical Engineering Journal

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Effect of Silk Sericin Content on the Electrospun Silk Nanofibrous Membrane Property

Liu

et al. 2021

MNS

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Aims: Research of the effect of silk sericin content on the morphology and structure of electrospun silk nanofibrous membrane. Background: Silk sericin has significant influence on the silk solution and regenerated silk-based materials property, while few reports were found to investigate. Objective: We'll know the effect of silk sericin content on the morphology and structure of electrospun silk nanofibrous membrane. Methods: Four degumming conditions (none degumming, boiling water degumming, 0.05 % Na2CO3 degumming, 0.5 % Na2CO3 degumming) were carried out a systematic investigation in terms of silk sericin content after degumming, regenerated silk nanofibrous membrane morphology (SEM) and structure property (FTIR, XRD). Result: The results show that 0.5 % Na2CO3 degumming results poor spinnability. The solution derives from none degumming and boiling water degumming present high viscosity, leading to a hard silk nanofiber fabrication process. The silk nanofiber from the 0.05 % Na2CO3 degumming shows easier fabrication process and better nanofiber morphology. Conclusion: We successfully prepared silk nanofiber membrane with different sericin content. The sericin content significantly affects the spinnability and subsequent nanofiber morphology. Higher sericin content leads to poor solution spinnability and numerous droplets on resulting nanofiber membrane. Additionally, the sericin can both existence of structural silk I and silk II, which will favor to the increase of mechanical property.

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Altering Silk Film Surface Properties through Lotus‐Like Mechanisms

Cited by 3 publications

References 46 publications

Self-Rolling Refillable Tubular Enzyme Containers Made of Recombinant Spider Silk and Chitosan

Self-Rolling Refillable Tubular Enzyme Containers Made of Recombinant Spider Silk and Chitosan

Robust natural biomaterial based flexible artificial skin sensor with high transparency and multiple signals capture

Effect of Silk Sericin Content on the Electrospun Silk Nanofibrous Membrane Property

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