Liquid crystal behavior of cellulose nanoparticles-ethyl cellulose composites: Preparation, characterization, and rheology

This work deals with assessing the approach for preparation of cellulose nanoparticles (CNPs) to be acted as synergistic component in liquid crystal (LC) ethyl cellulose composite (EC-CNPs). In this respect different structures of CNPs were prepared by acid and salt agents. These prepared CNPs were characterized by carboxyl content, IR, transmission electron microscope (TEM), and zeta potential, while their composites with EC were characterized by rheological measurements as a key factor for measuring the critical concentration of LC behavior. The results showed that, the crystallinity of CNPs obtained by ammonium persulfate exceeded that prepared by sulfuric acid hydrolysis. TEM images of stained CNPs showed both methods led to produce nanoparticles have rod like shape with aspect ratio (L/W) between 7.69 +/- 3 and 31.3 +/- 5. For the rheological measurements, it demonstrated the efficient of incorporating the CNPs to EC (EC-CNPs composites) to decrease the critical concentration of EC from 40 wt% to approximately 34 wt%.

Automated summary

This work focuses on evaluating the role of cellulose nanoparticles in ethyl cellulose composite for liquid crystal applications. Results showed that CNPs prepared with ammonium persulfate exhibited higher crystallinity compared to those prepared with sulfuric acid hydrolysis. Incorporating CNPs into EC led to a decrease in the critical concentration of EC, improving the performance of the composites.