A simulation of piezoelectric PVDF sensing module towards flexible electronics
With the rise of Artificial Intelligence (AI) and advances in robotic technologies, the prevalence of wearable devices is increasing. Among the piezoelectric materials, PVDF is a suitable for wearable electronics because it is non-toxic to the human body and flexible. However, when constant pressure...
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2023
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my.utm.1076902024-09-25T07:53:51Z http://eprints.utm.my/107690/ A simulation of piezoelectric PVDF sensing module towards flexible electronics Al Mamun, Md. Rakin Mohamed Sultan, Suhana Johari, Zaharah Pu, Suan Hui Ling, Ting Yang TK Electrical engineering. Electronics Nuclear engineering With the rise of Artificial Intelligence (AI) and advances in robotic technologies, the prevalence of wearable devices is increasing. Among the piezoelectric materials, PVDF is a suitable for wearable electronics because it is non-toxic to the human body and flexible. However, when constant pressure is applied to PVDF, the amount of produced electricity is minimal. Therefore, an organic field effect transistor is proposed to amplify the generated electricity. As a result, in this paper, an OFET and PVDF piezoelectric material are combined to create a flexible electronic sensor for detecting human body movement. From a force range from 5 to 25 N, the voltage generated increases linearly from 1.38 V to almost 7 V. From the obtained results, it can be predicted the desired outcome by measuring the range of current and voltage generated by exerting stress on the PVDF piezoelectric material. 2023 Conference or Workshop Item PeerReviewed Al Mamun, Md. Rakin and Mohamed Sultan, Suhana and Johari, Zaharah and Pu, Suan Hui and Ling, Ting Yang (2023) A simulation of piezoelectric PVDF sensing module towards flexible electronics. In: 2023 IEEE International Conference on Sensors and Nanotechnology (SENNANO), 26 September 2023-27 September 2023, Putrajaya, Malaysia. http://dx.doi.org/10.1109/SENNANO57767.2023.10352444 |
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TK Electrical engineering. Electronics Nuclear engineering Al Mamun, Md. Rakin Mohamed Sultan, Suhana Johari, Zaharah Pu, Suan Hui Ling, Ting Yang A simulation of piezoelectric PVDF sensing module towards flexible electronics |
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With the rise of Artificial Intelligence (AI) and advances in robotic technologies, the prevalence of wearable devices is increasing. Among the piezoelectric materials, PVDF is a suitable for wearable electronics because it is non-toxic to the human body and flexible. However, when constant pressure is applied to PVDF, the amount of produced electricity is minimal. Therefore, an organic field effect transistor is proposed to amplify the generated electricity. As a result, in this paper, an OFET and PVDF piezoelectric material are combined to create a flexible electronic sensor for detecting human body movement. From a force range from 5 to 25 N, the voltage generated increases linearly from 1.38 V to almost 7 V. From the obtained results, it can be predicted the desired outcome by measuring the range of current and voltage generated by exerting stress on the PVDF piezoelectric material. |
| format |
Conference or Workshop Item |
| author |
Al Mamun, Md. Rakin Mohamed Sultan, Suhana Johari, Zaharah Pu, Suan Hui Ling, Ting Yang |
| author_facet |
Al Mamun, Md. Rakin Mohamed Sultan, Suhana Johari, Zaharah Pu, Suan Hui Ling, Ting Yang |
| author_sort |
Al Mamun, Md. Rakin |
| title |
A simulation of piezoelectric PVDF sensing module towards flexible electronics |
| title_short |
A simulation of piezoelectric PVDF sensing module towards flexible electronics |
| title_full |
A simulation of piezoelectric PVDF sensing module towards flexible electronics |
| title_fullStr |
A simulation of piezoelectric PVDF sensing module towards flexible electronics |
| title_full_unstemmed |
A simulation of piezoelectric PVDF sensing module towards flexible electronics |
| title_sort |
simulation of piezoelectric pvdf sensing module towards flexible electronics |
| publishDate |
2023 |
| url |
http://eprints.utm.my/107690/ http://dx.doi.org/10.1109/SENNANO57767.2023.10352444 |
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1811681246288281600 |
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13.211869 |