Proceedings of the International Conference on Science and Technology (ICOSAT 2017)

Characterization Analysis of PVDF Thin Films Fabricated Using Deep Coating Machines

Ambran Hartono, Suparno Satira, Mitra Djamal, Mr Ramli
Corresponding Author
Ambran Hartono
Available Online August 2017.
DOI to use a DOI?
Annealing temperature, β fraction, Deep Coating, Heating time, Piezoelectric PVDF
Development of Polyvinylidene Fluoride (PVDF) thin film manufacturing technologies is rapidly increasing. Various fabrication methods continue to evolve. In this paper described about the fabrication of PVDF thin films using deep coating. Fabrication of PVDF films made for several samples with variations of temperature and duration of heating. Piezoelectric properties of PVDF as well as the fraction of the value of β is the focus of which is discussed in the paper. The amount of beta fraction samples will determine the quality of thin films made. To see how much the value of the beta fraction sampled sample characterization using FTIR and XRD. Characterization of the results obtained is then performed calculations to determine how much beta fraction of the sample. From the calculations, the fraction of beta to increase the heating temperature of 700C to 1100C in a row is: 37%, 38%, 44%, 50% and 58%. Further more for variations in the length of time to warm up 10 minutes, 20 minutes and 30 minutes fractions beta values obtained by 34%, 48% and 60%. These results indicate that the PVDF thin films fabricated using deep coating method has produced samples of PVDF films with good piezoelectric properties. Of research is well known that the optimum annealing temperature was 1100C and the optimum length of heating time is 30 minutes.
Open Access
This is an open access article distributed under the CC BY-NC license.

Download article (PDF)

Cite this article

AU  - Ambran Hartono
AU  - Suparno Satira
AU  - Mitra Djamal
AU  - Mr Ramli
PY  - 2017/08
DA  - 2017/08
TI  - Characterization Analysis of PVDF Thin Films Fabricated Using Deep Coating Machines
BT  - International Conference on Science and Technology (ICOSAT 2017) - Promoting Sustainable Agriculture, Food Security, Energy, and Environment Through Science and Technology for Development
PB  - Atlantis Press
SN  - 1951-6851
UR  -
DO  -
ID  - Hartono2017/08
ER  -