Maizal Hairi, Nur Iffah Irdina and Md Ralib, Aliza Aini and Ahmad, Farah and Mat Hattar, Maziati Akmal
(2022)
Synthesis and characterization of different graphite/chitosan ink ratio composition towards flexible strain sensor performance.
Journal of Materials Science: Materials in Electronics.
ISSN 0957-4522
(In Press)
Abstract
Flexible and stretchable strain sensors are getting vast attention to be implied in various wearable devices application. However, most conventional strain sensor is having limitations in achieving both high stretchability and sensitivity. Selection of materials for conductive fillers and binders are crucial in producing the stretchable ink for strain sensors. Biopolymer materials such as chitosan started to be implied in various application such as gas sensor and electro-chemical sensor. Chitosan has advantages to be a good binder as it exerts sig-nificant physical properties. Conductive fillers such as graphite powder are known to be having good electrical conductivity. Hence, this paper aims to investigate the effect of different graphite/chitosan ink ratio composition towards flexible and stretchable strain sensor performance. Three different graphite/chitosan ink ratios of 1:2, 1:3, and 1:4 were synthesized. The surface morphology shows that the graphite/chitosan ink ratio 1:2 has the most com-pact structure resulting to good adaptability, conductivity, and flexibility. The XRD and FTIR results illustrate that graphite are successfully synthesized with chitosan solution. Measurement result shows that the highest strain detection range is also attainable by graphite/chitosan ink ratio of 1:2 at 83.3% strain and gauge factor of 5.44. This concludes that graphite/chitosan ink ratio of 1:2 is the optimum ratio as highest stretchability and sensitivity are recorded. Therefore, it is important to have an adequate amount of chitosan solution to obtain good ink structure and great performance of strain sensor.
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