Electroactive and Optically Adaptive Bionanocomposite for Reconfigurable Microlens
| Author | Sadasivuni, Kishor Kumar |
| Author | Ponnamma, Deepalekshmi |
| Author | Ko, Hyun-U |
| Author | Zhai, Lindong |
| Author | Kim, Hyun-Chan |
| Author | Kim, Jaehwan |
| Available date | 2021-09-01T10:03:33Z |
| Publication Date | 2016 |
| Publication Name | Journal of Physical Chemistry B |
| Resource | Scopus |
| Abstract | This paper introduces an electroactive bionanocomposite based on poly(diethylene glycol adipate) (PDEGA) and cellulose nanocrystals (CNCs). The bionanocomposites were made using CNCs extracted from cotton and by optimizing its concentration in terms of the optical transmittance and viscosity. The characteristic properties of the materials were analyzed using contact angle measurements and Fourier transformation infrared spectra. Using the PDEGA/CNC bionanocomposite at a very low concentration of CNCs, a configurable lens having a robust, self-contained tunable optical structure was developed. The shape and curvature of the soft PDEGA/CNC device were controlled by applying voltage, and the focal length was measured. The simple structure, high optical transparency, biodegradability, thermal stability, high durability, and low power consumption make the new material particularly useful in fabricating a reconfigurable lens for future electronic and optical devices. 2016 American Chemical Society. |
| Sponsor | This work was supported by National Research Foundation of K o r e a ( N RF - 2 0 1 3 M 3 C 1 A 3 0 5 9 5 8 6 , N R F -2015R1A3A2066301). |
| Language | en |
| Publisher | American Chemical Society |
| Subject | Adaptive optics Biodegradability Cellulose derivatives Fourier transforms Glycols Bio-nanocomposite Cellulose nanocrystal (CNCs) Characteristic properties Fourier transform infrared spectrum Low concentrations Low-power consumption Optical structures Optical transparency Lenses Cellulose Derivatives Composites Contact Angle Cotton Energy Consumption Fourier Analysis Infrared Spectra Polymers Viscosity cellulose nanocomposite nanoparticle atomic force microscopy chemistry transmission electron microscopy viscosity Cellulose Microscopy, Atomic Force Microscopy, Electron, Transmission Nanocomposites Nanoparticles Viscosity |
| Type | Article |
| Pagination | 4699-4705 |
| Issue Number | 20 |
| Volume Number | 120 |
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