Alumni

In engineering, as in life, there is usually no defined path or prescribed route to take in search of difficult answers. Looking at how we travel through our careers, transitioning to industry from our studies or taking the next step in academia, we can examine the critical decisions and choices we make in how we can grow to best serve our profession. Value in being an engineer comes from how we make these choices and in learning how to shape the driving factors behind the process itself. Please join us for a discussion about our value in society and how we can work to increasing the golden mean.

Dr. Higgins will address important aspects of CO₂R catalyst development, including alloying and surface structure engineering approaches to tune activity and selectivity. He will discuss the remaining challenges facing artificial photosynthesis technology deployment, along with preliminary results for the integration of CO₂R catalysts into practical device prototypes.

Professor Rojas will introduce the vision of the future “Materials Bioeconomy” of Finland by way of the recently funded Aalto-VTT Flagship that is designed to catalyze fundamental research that will lead to scientific as well as economic impacts.

Dr. Omar Faruk will provide critical reviews and the latest research results of polymer composites materials, focusing on various lightweight and sustainable materials in automotive applications. He will discuss also the current applications and future trends of lightweight plastic composite materials in the automotive area.

In the chemical process industry, the need to make decisions in a context of multiple and competing objectives is frequent. Thanks to advances in the field of operational research and systems science, several methods of multi-objective optimization have emerged that can be applied to chemical and biochemical engineering processes. These techniques incorporate the knowledge of an expert of a given process to the optimization routine, which provides valuable information about the domain of optimal solutions.

The utilization of coal generates tons of solid waste, including fly ash and coal gangue, which occupies a huge amount of land and causes serious environmental problems, such as water and air pollution. In addition, the resource materials that remain in the solid waste, including Al, Si and Li, cannot be well utilized, which wastes resources. Our research focuses on the utilization of coal-based solid waste and a series of technologies that have been developed to undertake that work.

Dr. Sameoto will provide an overview of several technologies developed by his lab. The techniques combine novel manufacturing processes to produce polymer-based products ranging from gecko-inspired adhesives to stretchable electronics and soft robotics. Combining different research disciplines, including micro- and nanofabrication, with larger scale 3D-printing technologies has opened up new opportunities for the manufacturing of new smart materials, bio-inspired surfaces and wearable electronics. Highlights include direction sensitive adhesives for pick-and-place assembly, mechanically reprogrammable soft robots, and multi-material FDM additive manufacturing processes that can print hard plastics, rubbers and stretchable metal wires in a single part.

Supervisor: Michael Fowler, Chemical Engineering

Supervisors: Aiping Yu, Chemical Engineering and Michael Fowler, Chemical Engineering

X-ray absorption spectroscopy (XAS) is a useful technique for studying electronic and structural properties of materials. When these measurements are performed in-situ, it is valuable to identify the reactive species and monitor the reaction kinetics. This could significantly improve our understanding of material property and advance the rational design of material with improved performance.