Advanced Scientific Research Projects

Ongoing Advanced Scientific Research

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RF Energy Harvesting and Battery-Less Devices

In this domain, we develop energy-autonomous ultra-low power electronics devices and communication systems by researching on the fields of Wireless Power Transfer (WPT) & RF energy harvesting technics.

Parametric Speakers

In this research, novel parametric speaker array technics are implemented and started testing to increase the audible range of the speakers,  reduce the total harmonic distortion, and enhance the quality of the audio.

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Supercapacitor Assisted Standalone Photovoltaic System

This research is based on enhancing the conversion efficiency of a standalone photovoltaic (PV) system using supercapacitor energy storage, where conventional standalone PV systems can achieve 90% average conversion efficiency. The outcomes of this research show the efficiency of the proposed system can reach up to 98%.

Low-Power Devices Powered by Piezo Electric Energy

We conduct experimental research using piezoelectric energy harvesting to drive low energy consuming devices for applications where replacement of battery or maintenance is unpractical, like sensors in the human body, for powering portable devices or it can be used for the improvement of a smart building concept.

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Design of a Cuprous Oxide Thin Film Semiconductor based Device for Dissolved Oxygen Sensing

In this research, it is expected to develop a method to sense dissolved oxygen using Cu2O thin film semiconductors and thereby design a low-cost and durable dissolved oxygen sensing device that will overcome the problems associated with existing sensors.

Image

RF Energy Harvesting and Battery-Less Devices

In this domain, we develop energy-autonomous ultra-low power electronics devices and communication systems by researching on the fields of Wireless Power Transfer (WPT) & RF energy harvesting technics.
Image

Parametric Speakers

In this research, novel parametric speaker array technics are implemented and started testing to increase the audible range of the speakers,  reduce the total harmonic distortion, and enhance the quality of the audio.
Image

Supercapacitor Assisted Standalone Photovoltaic System

This research is based on enhancing the conversion efficiency of a standalone photovoltaic (PV) system using supercapacitor energy storage, where conventional standalone PV systems can achieve 90% average conversion efficiency. The outcomes of this research show the efficiency of the proposed system can reach up to 98%.
Image

Low-Power Devices Powered by Piezo Electric Energy

We conduct experimental research using piezoelectric energy harvesting to drive low energy consuming devices for applications where replacement of battery or maintenance is unpractical, like sensors in the human body, for powering portable devices or it can be used for the improvement of a smart building concept.
Image

Design of a Cuprous Oxide Thin Film Semiconductor based Device for Dissolved Oxygen Sensing

In this research, it is expected to develop a method to sense dissolved oxygen using Cu2O thin film semiconductors and thereby design a low-cost and durable dissolved oxygen sensing device that will overcome the problems associated with existing sensors.

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2024-12-20