DOI: 10.1063/5.0196086 ISSN: 2166-532X

3D printed polyvinylpyrrolidone–honey-gel with adhesive and degradable ability applied as bio-tape

Shilong Hu, Yan Liu, Zhengzhou Yin, Husheng Chen, Yuan Jin, Aibing Zhang, Minghua Zhang, Licheng Hua, Jianke Du, Guangyong Li
  • General Engineering
  • General Materials Science

This study explored the development of polyvinylpyrrolidone (PVP)–honey-gel (PHG) through 3D printing, aiming to develop a multifunctional bio-tape with adhesive and degradable properties. Based on the potential of honey to promote wound healing due to its antibacterial and anti-inflammatory properties, a PVP–honey-based 3D printing ink was developed by combining honey and PVP to create PHG through 3D printing technology that can form a film with strong adhesion and flexibility. First, the chemical–physical properties of PHG and its 3D printing performance were characterized. The line width achievable in 3D printing for the PHG line can extend to ∼100 µm. In addition, the adhesive properties of the PHG film were evaluated by using a 180° peeling test on various materials (glass, copper, wood, and pig skin), highlighting its potential for diverse applications. Finally, the application of the PHG film as a bio-tape was demonstrated through a successful animal experiment on a rabbit’s skin wound. Due to its adhesive and degradable properties, the bio-tape exhibited 3D conformability and ease of removal without residue.

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