Researchers

Researchers

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z


Maziati Akmal Bt Mat Harttar @ Mohd Hatta
Assistant Professor

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Staff Details

Bidang Pengkhususan

Teaching Responsibilities

Research Projects

In Progress
2021 - Present Stretchable chitosan-foliated graphite biocomposite as piezoresistive functional material towards enhanced strain sensing response
2021 - Present Enhanced Peak Current in Nicotine Detection using Electrochemical-based Screen Printed Electrodes Modified with Chitosan-Reduced Graphene Oxide Nanocomposite
2021 - Present Enhanced Performance of Stretchable Body Coupled Antenna with High Permittivity Barium Titanate - Silicone Elastomer Composite for Biomedical Microwave Sensing and Imaging applications
2021 - Present STEM For all: Inspiring Malaysia Indigeneous students through EDS-ETC
2020 - Present Investigation of a Hybrid Piezoelectric and Radio Frequency (RF) Energy Harvester using Chitosan based Piezoelectric Thin Film for Self-Powered Health Care Wireless Sensors Network (HC-WSN)
2019 - Present Chitosan-based biocompatible piezoelectric thin film from shrimp shell waste for self-powered cardiac pacemaker
2019 - Present Effectiveness of microbial chitosan thin films from carbon substrate of palm oil mill effluent for potential application as novel tactile sensor in healthcare monitoring.
2019 - Present Chitosan-based biocompatible piezoelectric thin film from shrimp shell waste for self-powered cardiac pacemaker
2019 - Present Effectiveness of microbial chitosan thin films from carbon substrate of palm oil mill effluent for potential application as novel tactile sensor in healthcare monitoring.
2018 - Present Study on c-axis polarization and piezoelectric properties of K0.5Na0.5NbO3 thin film-ZnO nanowhisker composite via the hybrid sol-gel route.
2018 - Present Study on c-axis polarization and piezoelectric properties of K0.5Na0.5NbO3 thin film-ZnO nanowhisker composite via the hybrid sol-gel route.
Unknown - Present Investigation of a Hybrid Piezoelectric and Radio Frequency (RF) Energy Harvester using Chitosan based Piezoelectric Thin Film for Self-Powered Health Care Wireless Sensors Network (HC-WSN)
Unknown - Present Investigation of a Hybrid Piezoelectric and Radio Frequency (RF) Energy Harvester using Chitosan based Piezoelectric Thin Film for Self-Powered Health Care Wireless Sensors Network (HC-WSN)
Completed
2018 - 2021 Study on c-axis polarization and piezoelectric properties of K0.5Na0.5NbO3 thin film-ZnO nanowhisker composite via the hybrid sol-gel route.

Publications

Article
2021 Effect of chitosan dissolved in different acetic acid concentration towards VOC sensing performance of quartz crystal microbalance overlay with chitosan. Materials Letters , 291 pp.1-4
2021 Biosynthesis of thin film derived from microbial chitosan for piezoelectric application. Materials Today Communications , 29 pp.1-11
2021 Advanced vapour sensing materials: existing and latent to acoustic wave sensors for VOCs detection as the potential exhaled breath biomarkers for lung cancer. Sensors and Actuators A: Physical , 329 (112792)
2021 Electrical behaviour of yttrium-doped potassium sodium niobate thin film for piezoelectric energy harvester applications. Journal of the Australian Ceramic Society pp.1-8
2019 Vibrational piezoelectric energy harvester’s performance using lead zirconate titanate versus lead-free potassium sodium niobate. Materials Research Express , 6 (11) pp.1-11
2018 Optimizing the processing conditions of sodium potassium niobate thin films prepared by sol-gel spin coating technique. Ceramics International , 44 (1) pp.317-325
2016 Structural evolution and dopant occupancy preference of yttrium-doped potassium sodium niobate thin films. Journal of Electroceramics , 37 (1-4) pp.50-57
2016 Influence of yttrium dopant on the structure and electrical conductivity of potassium sodium niobate thin films. Materials Research , 19 (6 (November/December)) pp.1417-1422
2016 Effect of amphoteric dopant on the dielectric and structural properties of yttrium doped potassium sodium niobate thin film. Materials Letters , 170 pp.10-14
2015 Physical and electrical properties enhancement of rare-earth doped-potassium sodium niobate (KNN): A review. Journal Ceramics-SILKATY , 59 (2) pp.158-163

Conference or Workshop Item
2021 Extraction of microbial chitosan for piezoelectric application. In: First International Conference on Electrical Energy and Power Engineering 2020 (ICEEPE 2020)
2021 Facile extraction of chitin and chitosan from shrimp shell. In: 3rd International Conference on Materials Engineering and Science, IConMEAS 2020
2021 Microbial chitosan for the fabrication of piezoelectric thin film. In: The 6th International Online Conference on Science, Technology, and Interdisciplinary Research 2020
2021 Performance Analysis of VOCs Detection using Polyisobutylene and Chitosan Overlayed on QCM Sensor. In: 2021 IEEE Regional Symposium on Micro and Nanoelectronics (RSM)
2020 Review on microbial chitosan for the fabrication of piezoelectric thin film. In: The 6th International Online Conference on Science, Technology, and Interdisciplinary Research
2020 Microbial chitosan thin film from palm oil mill effluent for potential application as novel tactile sensor. In: Kulliyyah of Engineering Research, Innovation and Commercialization Exhibition (KERICE) 2020
2020 Characterization of chitosan from extracted fungal biomass for piezoelectric application. In: 26th Regional Symposium on Chemical Engineering (RSCE 2019)
2019 The effects of different pyrolysis and annealing temperature on structural and resistivity of K0.5Na0.5NbO3 thin film. In: International Conference on X-Rays and Related Techniques in Research and Industry 2018 (ICXRI 2018)

Book

Book Section
2021 Biopolymer-based waste for biomaterials thin film in piezoelectric application. In: Advanced Technology for the Conversion of Waste Into Fuels and Chemicals Elsevier , pp.355-381
2020 Bionanomaterial thin film for piezoelectric applications. In: Advances in nanotechnology and its applications Springer, Singapore . ISBN 978-981-15-4741-6 , pp.63-82
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