The Faculty of Applied Science comprises a unique constellation of professional disciplines including; Architecture & Landscape Architecture, Engineering, Nursing and Community & Regional Planning. The core purpose shared across all of our four disciplines is to discover, create and apply knowledge, provide unwavering top-tier education and champion a community of responsible professionals devoted to serving a thriving, sustainable and healthy society. Our work and the professions which our graduates represent span the entire human-centred built environment.
The disciplines within the Faculty of Applied Science are celebrated for the scope, strength and impact of their research activities. Our Faculty claims the spotlight in the global arena for our research in clean energy, communication and digital technologies, health and health technology among many others. We offer disciplinary-specific research based graduate programs as well as a range of professional graduate programs and pride ourselves on our ability to open doors of opportunity to students beyond their time within our Faculty.
This is an incomplete sample of recent publications in chronological order by UBC faculty members with a primary appointment in the Faculty of Applied Science.
| Year | Citation | Program |
|---|---|---|
| 2021 | Dr. Haney studied Canadian abortion nursing from 1960-1999. Her analysis of previously untold stories of Registered Nurses revealed their key contributions to developing and providing safe abortion services amid significant legal, clinical and cultural challenges. Her study adds new insight into abortion, women's health, and nursing history. | Doctor of Philosophy in Nursing (PhD) |
| 2021 | Built form, health, housing, and demographic indicators are explored in Dr. Shulman's research. While results point to gentrification, they do not indicate displacement of low-income households. Findings are particularly important to policymakers and planners in facilitating a discussion about accessibility and social inequality. | Doctor of Philosophy in Planning (PhD) |
| 2021 | Dr. Sarbishei studied sulfur deportment in ferronickel production via Rotary Kiln-Electric Furnace process. He investigated the effect of sulfur content of rotary kiln fuel on the final composition of crude ferronickel. His findings will help the nickel industry to minimize the sulfur impurity in ferronickel and reduce the role of the refinery. | Doctor of Philosophy in Materials Engineering (PhD) |
| 2021 | On average, the mining industry has been generating low shareholder returns for over 50 years. Dr. Gillis found that mining company returns are driven by the accuracy of financial forecasts at the planning stage of mining projects. He identified methods to improve project forecasts and generate higher long-term shareholder returns. | Doctor of Philosophy in Mining Engineering (PhD) |
| 2021 | Dr. Zhou's work presents a comprehensive study of GaN transistors. GaN transistors are used in power applications, helping to convert, manage, and control electric power. It provides high power efficiency and low system costs. Dr. Zhou demonstrated a new failure mechanism analysis method and three different methods to enhance the device performances. | Doctor of Philosophy in Materials Engineering (PhD) |
| 2021 | Dr. Voskobojnikov studied the human challenges that arise in the context of crypto-assets, such as bitcoin or Ether. His research shows that both users and non-users struggle in the ecosystem due to its complex nature. His findings further the understanding of the shortcomings of current software and can be leveraged to enhance the user experience. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2021 | Dr. Douglas surveyed over 900 residents in the Greater Vancouver Regional District and conducted 15 in-depth interviews to try to find out. Read his thesis at greatneighbourhood.ca and learn how high-quality public space might improve residents' sense of community in high-density neighbourhoods. | Doctor of Philosophy in Planning (PhD) |
| 2021 | Dr. Karpinski-Leydier designed and developed a rapid machine learning modeling method for studying new automotive energy technologies. These techniques allow for new more environmentally friendly energy conversion technologies to be developed and released to the public more quickly and at a reduced cost. | Doctor of Philosophy in Mechanical Engineering (PhD) |
| 2021 | Mining wastewater contains elevated concentration of selenium with toxic effects to aquatic life. Biological treatment is a preferred method for removal of selenium from wastewater. In this research, the rate of selenium removal is studied in a bioreactor. The results provide key information for mining industry toward sustainable mining operations. | Doctor of Philosophy in Chemical and Biological Engineering (PhD) |
| 2021 | Dr. Foroozand developed novel approaches to better estimate dependencies in sensor networks, which can support reduction and re-evaluation of high-density raingauge and streamflow networks. This, in turn, can optimize efficiency in future efforts to collect valuable information for modeling and support decision-making in water resource management. | Doctor of Philosophy in Civil Engineering (PhD) |