Professor
Elias Siores will be presenting his work Titled "Hybrid
Photovoltaic-Piezoelectric Flexible Device for Energy Harvesting from
Nature" at Materials Science
Conference to be held during
February 20-21, 2017 at Berlin, Germany.
Professor Elias
Siores is the Provost and Director of Research and Innovation, Bolton
University. Educated in the UK (BSc, MSC, MBA, PhD) and pursued his academic
career in Australia (Sydney, Brisbane and Melbourne) and Asia (Hong Kong, Dong
Guan) before returning to Europe (UK) as a Marie Curie Fellow. His R&D work
concentrated on advancing the science and technology in the field of automated
Non-Destructive Testing and Evaluation including Ultrasound, Acoustic Emission,
and Microwave Thermography. His recent R&D work focuses on Smart / Functional
Materials and Systems development. In this area, he has developed
Electromagnetic, Electrorheological, Photovoltaic and Piezoelectric SmartMaterials based Energy Conversion Systems for Renewable Energy, Medical, Health
Care and Wearable Devices. He has published over 300 publications including 8
Patents . He has been a member of editorial boards of international journals
and a Fellow of IOM, TWI, IEAust, SAE and WTIA. He has received 15 awards in
his career for R&D achievements.
Abstract of the Speech:
Statement of the Problem: Photovoltaic materials
have unique conversion characteristic that they can convert sun light to
electrical energy. However, photovoltaic energy can be expensive if the solar
radiation in a particular region is not abundant. When the solar radiation is
scarce in a region, there is presence of wind and rainfall. If flexible solarcells are coupled with flexible piezoelectric films then the hybrid structure
can generate energy from solar radiation, wind and rainfall. This work focuses
on nontransparent hybrid structure which contains copper and aluminium
electrodes and eliminates the used of costly indium tin oxide (ITO).
Methodology & Theoretical Orientation: Hybrid
film has been developed by depositing organic photovoltaic cell based on P3HT
and PCBM on a piezoelectric film under ambient room conditions and tested.
Findings: The hybrid film produced an open circuit
voltage (Voc) of 0.45V and a short circuit current density (Jsc) of 0.43mA/cm2
under solar simulator and a peak power of 85 µW when subjected to a turbulent
wind speed up to 10m/sec (36km/hour) in a custom built wind tunnel.
Conclusion & Significance: HPP film has been
developed by depositing organic photovoltaic cell based on P3HT:PCBM on a
piezoelectric film under the ambient room conditions. HPP film produced was ITO
free and cost effective since the usage of expensive clean room procedure has
been eliminated. Experimental results proved that the HPP film produced was
able to convert both wind energy and solar energy into electrical energy.
The Materials Science Conference will be held in Berlin, Germany from February 20-21, 2017. This knowledge oriented congress aims to amplify your research and enlighten your knowledge in the field of materials science. Materials Research 2017 includes all the seminars, Materials Science workshops, poster presentations and materials science symposium on the most trending topics related to material science and engineering. This conference makes you sail in the ocean of material science and will definitely make your journey a memorable one.
The Materials Science Conference will be held in Berlin, Germany from February 20-21, 2017. This knowledge oriented congress aims to amplify your research and enlighten your knowledge in the field of materials science. Materials Research 2017 includes all the seminars, Materials Science workshops, poster presentations and materials science symposium on the most trending topics related to material science and engineering. This conference makes you sail in the ocean of material science and will definitely make your journey a memorable one.
For more details, please visit: http://materialsresearch.conferenceseries.com/
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