Surface Chemistry and Device Response of AlGaN/GaN SensorsJeremy Gillbanks
A copy of the presentation I delivered in September 2015 as part of my Final Year Project for the Master of Professional Engineering (Mechanical) at the University of Western Australia.
Please note: This was simply uploaded after the presentation was delivered as an example to friends studying engineering and what to expect in a final year presentation. Therefore, it lacks the full explanation required to understand the project in significant detail. Further information is available by contacting me directly.
This research furthered the development of micro-electro-mechanical sensors for use in recycled water monitoring and lab-on-a-chip medical devices. AlGaN/GaN sensors are superior to traditional ion-selective field effect transistor sensors because the are more stable, cost less and do not require a reference electrode.
Completing this project involved using the Australian Synchrotron to measure the molecular contact angle of three molecules, glycine, 6-amino-2-naphthoic acid in benzil, on the surface of an AlGaN/GaN high electron mobility transistor-based chemical sensor. The project was able to determine the angle for two out of the three chemicals used, which was a great success given the experimental difficulty of conducting near-edge x-ray absorption fine structure spectroscopy.
In this PDF we will take a look at how the Internet of Things is changing the way we interact with the Animals. In this post we see the mobile apps that connect with internet and track yours lost animals, health patterns, sick cattle and your animal’s Behaviour.
The Internet of Things (IoT), refers to the network of physical objects or “things” embedded with electronics, software sensors and connectivity to enable it to achieve greater value and service by exchanging data with other connected devices, individuals, or organizations.
WHY DON'T WE APPLY THE PRINCIPLE OF INTERNET OF THINGS TO ANIMALS?
Internet of Things , IoT for animals , Internet of Everything, Internet of Things (IoT)
Surface Chemistry and Device Response of AlGaN/GaN SensorsJeremy Gillbanks
A copy of the presentation I delivered in September 2015 as part of my Final Year Project for the Master of Professional Engineering (Mechanical) at the University of Western Australia.
Please note: This was simply uploaded after the presentation was delivered as an example to friends studying engineering and what to expect in a final year presentation. Therefore, it lacks the full explanation required to understand the project in significant detail. Further information is available by contacting me directly.
This research furthered the development of micro-electro-mechanical sensors for use in recycled water monitoring and lab-on-a-chip medical devices. AlGaN/GaN sensors are superior to traditional ion-selective field effect transistor sensors because the are more stable, cost less and do not require a reference electrode.
Completing this project involved using the Australian Synchrotron to measure the molecular contact angle of three molecules, glycine, 6-amino-2-naphthoic acid in benzil, on the surface of an AlGaN/GaN high electron mobility transistor-based chemical sensor. The project was able to determine the angle for two out of the three chemicals used, which was a great success given the experimental difficulty of conducting near-edge x-ray absorption fine structure spectroscopy.
In this PDF we will take a look at how the Internet of Things is changing the way we interact with the Animals. In this post we see the mobile apps that connect with internet and track yours lost animals, health patterns, sick cattle and your animal’s Behaviour.
The Internet of Things (IoT), refers to the network of physical objects or “things” embedded with electronics, software sensors and connectivity to enable it to achieve greater value and service by exchanging data with other connected devices, individuals, or organizations.
WHY DON'T WE APPLY THE PRINCIPLE OF INTERNET OF THINGS TO ANIMALS?
Internet of Things , IoT for animals , Internet of Everything, Internet of Things (IoT)