AIMS Bioengineering (Nov 2022)

Fabrication of biodegradable films using l-lactate as a chiral material to produce circularly polarized light

  • Po-Yeh Lin,
  • Chien-Ming Chen,
  • Jen-Ai Lee,
  • Yu-Chia Cheng

DOI
https://doi.org/10.3934/bioeng.2022024
Journal volume & issue
Vol. 9, no. 4
pp. 337 – 347

Abstract

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Optical activity and its relation to molecular chirality are significant in the measurement of optical rotation or circular dichroism characteristics to determine the absolute configuration of a chiral molecule. A quarter-wave plate, which is usually made from quartz, can convert linearly polarized light into circularly polarized light. In this study, we suggest using l-lactic acid (l-LA), a chiral material, and a water-based transparent glue to produce biodegradable films. Adjusting the number of thin layers, which are deposited from the mixture of l-LA and polyvinyl alcohol, leads to different phase differences, forming l-LA films. A modified microscope system was used to observe the appearance of the l-LA wave plates. Six layers and 0.8% l-LA solution were the optimal conditions to fabricate an l-LA film. The circular polarization experiment showed that the changes in maximum and minimum light intensity were within 2% compared to the average light intensity at a specific angle of the l-LA film. The performance of the l-LA film was consistent with that of a commercial quarter-wave plate. In conclusion, circularly polarized light was successfully produced using the l-LA film. The biodegradable l-LA film has widespread application in the field of biomedicine. Featured Application: l-Lactic acid film uses biodegradable and biocompatible materials. It can produce circularly polarized light and is beneficial for application in biomedicine.

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