Atmospheric acid emissions are increasing in north coastal British Columbia from increased metallurgical smelting, marine fossil fuel transport, and development of liquefied natural gas. Acid deposition can cause episodic acidification of streams when acidic compounds are flushed into streams after snowmelt and precipitation events over hours to weeks. Many salmon-bearing coastal streams are likely sensitive […]

Atmospheric acid emissions are increasing in north coastal British Columbia from increased metallurgical smelting, marine fossil fuel transport, and development of liquefied natural gas. Acid deposition can cause episodic acidification of streams when acidic compounds are flushed into streams after snowmelt and precipitation events over hours to weeks. Many salmon-bearing coastal streams are likely sensitive […]

This project studies the propagating channel path loss in urban and suburban scenarios and how the foliage affects the channel efficiency in terms of path loss. The impact of different parameters such as leaf size, leaf type and trees density will be considered. The study includes the RET model, empirical models and theoretical models. Numerical […]

InSAR is a technique used by radar-based remote sensing for applications such as tracking spatial displacement/deformation of an object on earth, e.g., building and a bridge, over time. The object analysis part of InSAR processing belongs to an offline processing chain that operates on very high resolution images consisting of huge volume of data. The […]

network of Marine Protected Areas (MPAs). My research will include case studies on two Mexican MPAs to examine what forms of impact assessment, monitoring, and management are taking place, as well as to investigate the perceived effectiveness of these methods by relevant community stakeholders. Using two MPA sites will allow me to compare how social […]

Multimedia data are of huge demand from “connected” consumers and how to deliver them ‘ ‘ effectively and efficiently becomes the new frontier of computer networking research’and development. The proposed project utilizes the research at the University of Victoria on content-based musical information retrieval and the development at Disternet Inc’ on a new, generation of […]

Hydrogen powered polymer electrolyte membrane fuel cells (PEMFCs) are a clean energy technology that generates electricity without harmful emissions at the point of use. To accelerate commercialization, current R&D efforts mainly target reduced cost and increased lifetime. The proposed research project addresses both aspects by developing a unified chemical and mechanical modeling platform for evaluating […]

Hydrogen powered polymer electrolyte membrane fuel cells (PEMFCs) are a clean energy technology that generates electricity without harmful emissions at the point of use. To accelerate commercialization, current R&D efforts mainly target reduced cost and increased lifetime. The proposed research project addresses both aspects by developing a unified chemical and mechanical modeling platform for evaluating […]

The objective of the proposed research is to investigate novel solid-state materials that have potential for hydrogen storage applications in fuel cell electric vehicles. Of interest are materials that can store hydrogen at ambient conditions and low pressures, have high gravimetric and volumetric hydrogen capacities, and can be safely packed into a hydrogen storage tank […]

The objective of the proposed research is to investigate novel solid-state materials that have potential for hydrogen storage applications in fuel cell electric vehicles. Of interest are materials that can store hydrogen at ambient conditions and low pressures, have high gravimetric and volumetric hydrogen capacities, and can be safely packed into a hydrogen storage tank […]

In this project, we will develop solid-state hydrogen storage materials for the potential applications of fuel cell electric vehicles. Based on the most cutting-edge achievements in related fields, two categories of two-dimensional layered nanomaterials are proposed. Their hydrogen storage capabilities will be elaborated by in-depth characterization of material structure and hydrogen storage properties. Moreover, we […]

In this project, we will develop solid-state hydrogen storage materials for the potential applications of fuel cell electric vehicles. Based on the most cutting-edge achievements in related fields, two categories of two-dimensional layered nanomaterials are proposed. Their hydrogen storage capabilities will be elaborated by in-depth characterization of material structure and hydrogen storage properties. Moreover, we […]