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Resilient yet entirely degradable gelatin-based biogels for soft robots and electronics.

Melanie BaumgartnerFlorian HartmannMichael DrackDavid PreningerDaniela WirthlRobert GerstmayrLukas LehnerGuoyong MaoRoland PrucknerStepan DemchyshynLisa ReiterMoritz StrobelThomas StockingerDavid SchillerSusanne KimeswengerFlorian GreibichGerda BuchbergerElke BradtSabine HildSiegfried BauerMartin Kaltenbrunner
Published in: Nature materials (2020)
Biodegradable and biocompatible elastic materials for soft robotics, tissue engineering or stretchable electronics with good mechanical properties, tunability, modifiability or healing properties drive technological advance, and yet they are not durable under ambient conditions and do not combine all the attributes in a single platform. We have developed a versatile gelatin-based biogel, which is highly resilient with outstanding elastic characteristics, yet degrades fully when disposed. It self-adheres, is rapidly healable and derived entirely from natural and food-safe constituents. We merge all the favourable attributes in one material that is easy to reproduce and scalable, and has a low-cost production under ambient conditions. This biogel is a step towards durable, life-like soft robotic and electronic systems that are sustainable and closely mimic their natural antetypes.
Keyphrases
  • tissue engineering
  • low cost
  • air pollution
  • particulate matter
  • high throughput
  • ionic liquid
  • bone regeneration
  • risk assessment
  • single cell
  • essential oil