Abstract & Article Details
Research Article • Vol.6, Issue 11 • ISSN: 2766-2276 • Open Access • CC BY 4.0
Highly Sensitive Liquid Crystal-Based Optical Biosensor for Quantitative Detection of Proteins
Abstract
We report on highly sensitive label free optical biosensing of proteins based on nematic liquid crystals. The principles of biosensing are related to the change in the liquid crystal alignment induced by biomolecules adsorbed on the cell inner surface, which can be easily detected with a polarizing optical microscope. Although this approach is well known, we propose here an experimental strategy that allows us to reach a detection limit of the order of 10-13 g/ml, orders of magnitude higher than the one reported in literature for the same kind of optical biosensors. Furthermore, our method leads to assess a well-defined, specific dependence of protein concentration on cell birefringence, for rapid quantitative biosensing. The proposed biosensor can additionally be used for the detection of antibodies.
Research Topics
How to Cite
Article Information
| Journal | Journal of Biomedical Research & Environmental Sciences (JBRES) |
|---|---|
| ISSN | 2766-2276 |
| DOI | DOI 10.37871/jbres2230 |
| Volume / Issue | Vol. 6, Issue 11 |
| Published | November 28, 2025 |
| Article Type | Research Article |
| Pages | 1784-1793 |
| License | CC BY 4.0 — Open Access |
| Publisher | SciRes Literature LLC, Sheridan, WY, USA |
| Language | English |
Published under CC BY 4.0 — free to share, copy, adapt, and redistribute with attribution.