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Characterization of graphene based-ink printed sampleon flexible substrate

Characterization of graphene based-ink printed sampleon flexible substrate / Muhammad Hanif Norizam
Sebagai reaksi kepada permintaan yang semakin meningkat pada peranti mudah stretchable dan boleh pakai, terdapat pelbagai usaha untuk membangunkan elastomer konduktif yang memenuhi kedua-dua keupayaan sepanjang mekanikal dan kekonduksian elektrik. Teknologi tersebut membolehkan mengintegrasikan elektronik untuk kegunaan setiap hari seperti industri kesihatan, industri sukan dan lain-lain Oleh itu terdapat pelbagai keperluan untuk dakwat konduktif yang boleh menjadi fleksibel dan regang pada masa yang sama. Ciri-ciri dakwat konduktif yang terbaik untuk digunakan pada substrat fleksibel dikaji dalam kertas kerja ini adalah untuk mencapai prestasi terbaik untuk teknologi litar elektronik masa hadapan. Kajian ini menumpukan kepada pencirian berdasarkan graphene-dakwat konduktif sebagai campuran dakwat dengan konduktor amat elektrik mikro perak bersaiz untuk kekonduksian elektrik yang lebih tinggi dicetak oleh kaedah percetakan skrin pada substrat polyurethane. Bahagian pencirian termasuk analisis morfologi dan retak pada permukaan dakwat melalui mikroskop elektron pengimbas (SEM) dan imej mikroskopik, rintangan keping dan kekonduksian dakwat konduktif melalui kaedah siasatan empat mata dan pelbagai meter dengan dan tanpa semasa ketegangan. Kerintangan dakwat berasaskan graphene-dengan kehadiran terikan ialah menganalisis untuk pembangunan masa depan dalam penggunaan sensor. Di sini kita melaporkan bahawa purata setiap sampel boleh bertahan sehingga strain 70 peratus sebelum retak mula muncul yang menyebabkan ia kehilangan hubungan yang membawa kepada kehilangan kekonduksian dan pemulihan diperhatikan untuk bergantung pada masa dan boleh balik sepenuhnya sebagai rintangan stabil selepas satu jam semasa ujian kitaran, rintangan akhir menunjukkan 2.7 kali rintangan awal dakwat berasaskan graphene. Kerja ini adalah satu langkah yang penting untuk penyelidikan masa depan kepada pembangunan dakwat berasaskan graphene-pada substrat yang fleksibel dan mudah regang. _______________________________________________________________________________________________________ As a response to growing demands on stretchable and wearable devices, there have been a wide variety of efforts to develop conductive elastomers that satisfy both mechanical stretch ability and electrical conductivity. Such technology enables integrating electronic for everyday uses such as for health industry, sport industry etc. Thus there is a need for conductive ink that can be flexible and stretchable at the same time. Properties of the best conductive ink to be use on a stretchable substrate and the material for the stretchable substrates is studied in this research to achieve the best performance for stretchable electronic circuit. This study concentrates on the characterization of graphene based-ink as the conductive ink mix with highly electrical conductors micro sized silver flake for higher electrical conductivity printed by a screen printing method on a polyurethane substrate. The characterization part includes analysis of the morphology and crack on the surface of the ink through scanning electron microscope (SEM) and microscopic image, sheet resistance and conductivity of the conductive ink via four-point probe method and multi-meter with and without the present of strain. The resistivity of the graphene-based ink with a presence of strain is analyze for future development in sensor uses. Here we report that average every sample can stand up to 70 percent strain before crack started to emerge that caused it to loss contact that lead to loss of conductivity and the recovery was observed to be time dependent and fully reversible as the resistance was stable after one hour during cyclic test as the final resistance was 2.7 times the initial resistance of the graphene-based ink. This work is an important step for future research on the development of graphene-based ink on stretchable substrate.
Contributor(s):
Muhammad Hanif Norizam - Author
Primary Item Type:
Final Year Project
Identifiers:
Barcode : 00003107061
Accession Number : 875007183
Language:
English
Subject Keywords:
develop conductive elastomers; mechanical stretch ability; electrical conductivity
First presented to the public:
6/1/2017
Original Publication Date:
4/18/2018
Previously Published By:
Universiti Sains Malaysia
Place Of Publication:
School of Electrical & Electronic Engineering
Citation:
Extents:
Number of Pages - 59
License Grantor / Date Granted:
  / ( View License )
Date Deposited
2018-04-18 09:50:58.22
Date Last Updated
2019-01-07 11:24:32.9118
Submitter:
Mohd Jasnizam Mohd Salleh

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