The next Food for Thought: Teaching Effectiveness lunch topic is “TA training,” featuring guest speaker Prof. Deborah Tihanyi (ISTEP). Lunch provided.
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Deborah Tihanyi has been teaching with the Engineering Communication Program (ECP) since 2001 and is currently an Associate Professor, Teaching Stream. She has taught across all departments in the Faculty of Applied Science and Engineering, from large classes to one-on-one tutoring. In recent years, her focus has been on developing communication curriculum in the Department of Mechanical and Industrial Engineering, working closely with Engineering faculty and creating training protocols for teaching assistants—all Engineering graduate students—teaching communication. Her research for the past 10 years has focused on engineering education, including the development of professional identity, the creation and use of professional portfolios, the integration of disciplinary knowledge and communication and TA training and professional development.
This lecture was formerly titled Lubricin: Alleviating the Effects of Dry Eye.
Abstract
Dry eye is an affliction where the tear film of the eye is unable to protect the cornea epithelium. One suspected cause of this condition is a deficiency of mucin, a protein that is thought to enhance wettability and reduce friction experienced during blinking. We report on the development of a model for mucin deficient dry eye and an investigation of the ability of lubricin, a heavily glycosylated protein, to restore lubricity and low friction during simulated blink events.
Bio
Gerald Fuller is the Fletcher Jones Professor of Chemical Engineering at Stanford University. He joined Stanford in 1980 following his graduate work at Caltech where he acquired his MS and PhD degrees. His undergraduate education was obtained at the University of Calgary, Canada. Professor Fuller’s interests lie in studies of rheology and interfacial fluid mechanics. His work has been recognized by receipt of the Bingham Medal of The Society of Rheology, membership in the National Academy of Engineering, election to the American Academy of Arts and Science, and honorary doctorates from the Universities of Crete, Greece, and Leuven, Belgium. He presently serves as the General Secretary to the International Committee on Rheology.
View the complete 2020-21 LLE schedule
Should you have any questions or require accommodation to attend the event, please email amanda.hacio@utoronto.ca.
Cynthia Goh, Professor of Chemistry, University of Toronto: Nanomaterials: from fundamental science to applications and impact
Abstract:
Why are we fascinated with the nanoscale? In this talk I will answer that question from the perspective of my lab, in terms of the challenges as well as opportunities that are offered. I will discuss perspectives on the commercialization of scientific knowledge and why it is important in our impact on society, particularly with regards to the global community.
Biography:
M. Cynthia Goh is Professor of Chemistry at the University of Toronto. She is the founder of the Impact Centre, an institute that aims to bring science to society, and was the inaugural Academic Director of University of Toronto Entrepreneurship. Her research interest centers on the interactions and properties of very large molecules, which has impact on nanotechnology, biomaterials and biodiagnostics. Other passions are: the translation of scientific discovery to technology/products that benefit society; the training of scientist-entrepreneurs; and the development of technology for low resource settings. Her research has led to 8 science-based companies, which she has co-founded with her students, including: Axela (medical diagnostics based on diffractive optics), Vive Crop Protection (nanotechnology in agriculture), Pueblo Science (non-profit for science literacy in low resource communities worldwide) and Phantin (nanomaterials coatings for environmental issues). In 2003 she originated Entrepreneurship101, an introduction for students who want to be entrepreneurs, which later moved to MaRS and expanded to thousands registered annually. In 2010 she founded Techno, an intensive training program for scientists/engineers who want to create science-based companies; in its 10 years, this program nucleated and nurtured 150+ student-led start-ups based on university research. Professor Goh has given invited lectures on her scientific research results, on their translation to useful products, and on the process of innovation and the training of scientist-entrepreneurs.
Microsoft Teams meeting:
Join on your computer or mobile app
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+1 647-794-1609,,522275285# Canada, Toronto
Phone Conference ID: 522 275 285#
Speaker: Professor Frank Gu
Join the Exhibition Distinguished Lecture on Zoom
- Password: UofTChemE
- Webinar ID: 910 3270 9340
Professor Frank Gu discusses taking global solutions for sustainability from the lab into business. Conducting research and training of highly skilled researchers have long been a central focus of universities. A roadmap to bring knowledge created in an academic lab to a practical application can be a convoluted and challenging process. In this talk, Professor Gu will discuss the advantages of fostering industry partnerships, cultivating entrepreneurship, and creating business models and technology development roadmaps in bringing research solutions closer to commercialization.
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Frank Gu is a Professor and an NSERC Senior Industrial Research Chair in Nanotechnology Engineering in the Department of Chemical Engineering & Applied Chemistry. Dr. Gu received his BSc from Trent University, Ph.D. from Queen’s University, and postdoctoral training from MIT and Harvard Medical School. Before joining U of T 2018, Dr. Gu was an Associate Professor at the University of Waterloo. Dr. Gu has established a frontier research program in Nanotechnology Engineering, with important advances in medical and life science applications. His research has brought tangible impacts on his field and industry, including mucoadhesive materials for the treatment of Dry Eye Disease, and photocatalytic water treatment technologies for the Canadian energy sector.
Dr. Afsaneh Fazly, Research Director, Samsung Toronto AI Centre
Abstract: Wouldn’t we all love to seamlessly communicate and interact with our cell phones, smart watches, and even our home appliances? This is indeed the holy grail of AI: to build machines and systems that can think, behave, and communicate in a way that is indistinguishable from human intelligent behaviour (the Turing test). The AI community has long realized that effectively and truly passing the Turing test is extremely difficult, if not close to impossible. As such, for the past few decades, AI researchers have focused on solving fundamental problems in separate sub-fields of AI, such as computer vision, computational linguistics, machine learning, planning, and reasoning (to name a few). With the recent advances in these areas, we are finally at a point where we can bring the puzzle pieces of AI together to build wholistic multi-faceted and multi-modal systems that actually work in practise, hence the recent surge in industry investment and interest in AI. In this talk, I will first give a high-level overview of how AI research is key to the success of an innovative company such as Samsung. I will then go over some of our efforts at the Samsung AI Centre in Toronto around building multi-modal communication and understanding systems that will pave the way for next generation human–machine interaction.
Bio: Dr. Afsaneh Fazly is currently a Research Director at the Samsung Toronto AI Centre, leading a team of outstanding scientists and engineers on a variety of projects at the intersection of vision and language. Afsaneh has extensive experience in both academia and the industry, publishing award-winning papers, and building strong teams solving real-world problems. Her research draws on many subfields of AI, including Computational Linguistics, Cognitive Science, Computational Vision, and Machine Learning. She strongly believes that solving many of today’s real-world problems requires an interdisciplinary approach that can bridge the gap between machine intelligence and human cognition. Prior to joining Samsung Research, Afsaneh worked at several Canadian companies where she helped build and lead teams of scientists and engineers solving a diverse set of AI problems. Prior to that, she was a Research Scientist and Course Instructor at the University of Toronto, where she received her PhD from.
Join us as we celebrate the achievements of our ChemE community at our end-of-year virtual awards celebration in our exclusive ChemE Gather.town space!
The event will feature:
- Welcoming remarks from Grant Allen (Chair)
- Virtual Awards Presentation
- ChemE Student Video
- Mix and Mingle in the ChemE Gather.town Cocktail Lounge
- Games, prizes and a ChemE themed escape room!
Contact Branden Wesseling as soon as possible if you would still like to register (branden.wesseling@utoronto.ca).
Peter Kondos, YaKum Consulting Inc.
Title: “Alternative Lixiviants to Cyanide – The Thiosulphate Experience”
Hosted by Professor Vladimiros Papangelakis
Abstract
The use of cyanide in the recovery of precious metals, particularly gold, has been practiced for nearly 150 years, because of its efficiency, selectivity to gold and easiness to use. The major impetus in seeking alternative lixiviants to cyanide arises from the environmental hazards posed by the toxicity of cyanide, with numerous environmental groups throughout the world actively pursuing a ban on its use. On a few occasions, cyanide use is uneconomic due to certain characteristics of the gold ore, such as high content of organic carbon, copper, and sulphur.
Thiosulphate is currently considered the most attractive alternative to cyanide for leaching gold due to its low toxicity and its potential use on carbonaceous ores that cannot be readily treated by conventional cyanidation. This presentation reviews the development of the ammoniacal thiosulphate leaching process for gold and silver extraction and discusses the underlying leaching mechanism, thermodynamics, thiosulphate stability and gold recovery options. The chemistry of the ammonia-thiosulphate-copper system is complicated. However, we found that by maintaining suitable Eh and pH and by controlling the concentrations of thiosulphate, ammonia, copper and oxygen in the leach solution, high gold extraction can be achieved with low reagent consumption:
The thiosulphate technology was selected by Barrick Gold Corp. to process very refractory gold ores in Nevada, USA. In November 2014, the Goldstrike mine in Nevada poured its first gold bar produced using their patented thiosulphate leaching technology, with a technology team led by the presenter. This milestone marked the industrial beginning of a new process developed to extract gold from double refractory ores that could not be treated via the traditional cyanidation/carbon-in-leach (CIL). The arduous path of technology development and commercialization will also be discussed.
Biography
Peter Kondos was born in Athens, Greece, where he completed his Diploma of Engineering at the National Technical University of Athens, followed by a MEng on Computers in Mining and a Ph.D. in Hydrometallurgy, both at McGill University. He has extensive expertise on leading innovation efforts, technology, IP management & commercialization and consistent track record of implementing new solutions in challenging situations. He has been involved in building worldwide networks and innovation ecosystems to solve complex challenges.
Peter has worked for:
- the Canadian Government at CANMET in Ottawa
- the Noranda Technology Centre in Montreal, leading the Hydrometallurgy group
- an electronic powders manufacturer for a year as R&D Manager of New Products
- Inco Technical Services in Mississauga as a Mini-Plant Operations Manager
- Barrick Gold Corporation, where he held the position of Sr. Director, Strategic Technology Solutions, coordinating step changes and breakthrough technologies
- YaKum Consulting Inc. as CEO, and Board member in technology organizations
His peer recognitions include:
- Sherritt Hydrometallurgy Award
- Chair of Canada Mining Innovation Council (CMIC 2014-2016)
- Innovation Award for the Thiosulphate Process (2016) and the Hot Cure and Lime Boiling Process to recover silver from the pressure oxidation process (2019)
- Has participated in numerous lectures and round tables on Mining Innovation.
Meeting link:
Microsoft Teams meeting
Join on your computer or mobile app
Click here to join the meeting
Or call in (audio only)
+1 647-794-1609,,173491355# Canada, Toronto
Phone Conference ID: 173 491 355#
Join us this April as Professor Frank Gu discusses taking global solutions for sustainability from the lab into business. Conducting research and training of highly skilled researchers have long been a central focus of universities. A roadmap to bring knowledge created in an academic lab to a practical application can be a convoluted and challenging process. In his talk, Professor Gu will discuss the advantages of fostering industry partnerships, cultivating entrepreneurship, and creating business models and technology development roadmaps in bringing research solutions closer to commercialization.
Frank Gu is a Professor and an NSERC Senior Industrial Research Chair in Nanotechnology Engineering in the Department of Chemical Engineering & Applied Chemistry. Dr. Gu received his BSc from Trent University, Ph.D. from Queen’s University, and postdoctoral training from MIT and Harvard Medical School. Before joining U of T 2018, Dr. Gu was an Associate Professor at the University of Waterloo. Dr. Gu has established a frontier research program in Nanotechnology Engineering, with important advances in medical and life science applications. His research has brought tangible impacts on his field and industry, including mucoadhesive materials for the treatment of Dry Eye Disease, and photocatalytic water treatment technologies for the Canadian energy sector.
Join us online for this free and exclusive event brought to you by U of T Engineering.
Register here today!
Contact Steve Radbourn (steve.radbourn@ecf.utoronto.ca) should you have any questions about the event.
How are biomedical engineering and biotechnology evolving? What are the keys to being able to build a successful career in a changing industry? Which techniques contribute to research and innovation in academia and industry? What other backgrounds and skills are shaping the future of the biomedical industry? How do you navigate such an interdisciplinary field?
Join us on April 14, 2021 for a lively panel discussion with experts shaping the industry of biomedical engineering and biotechnology in a variety of ways. The 5 panellists will share their experiences in computer science, electrical engineering, mechanical engineering, chemical engineering, biochemistry and biomedical engineering.
The Green Chemistry Initiative is hosting Dr. Pavani Cherukupally from Imperial College London as part of its online Seminar Series on Thursday, April 22 from 10-11 am. Dr. Cherukupally’s talk is titled: Sponges for wastewater reclamation, resource recovery, and infectious disease prevention.
Abstract: According to the United Nation’s Sustainable Development Goals 2030, there is a need for affordable, sustainable technologies to combat global water, environmental, and public health challenges. For example, the international oil industry produces over 100 billion liters of oil contaminated wastewater annually. The residual crude oil in these effluents is hazardous to the environment and valuable crude oil loss. On the other hand, antibiotic-resistant bacteria are estimated to cause 10 million deaths and $100 trillion in medical costs per year by 2050. In this talk, I will discuss a new sponge-based adsorption technology used to reclaim oily wastewater, reuse sponges, and recover residual crude oil from wastewater to improve circular economy metrics in the oil industry. Also, I will discuss sponges’ design for removing and killing bacteria in the water to provide safe water in medium- and low-income countries like Rwanda. Due to the excellent performance and cost-efficacy, the sponges could contribute to reforming water policies and accessible to people across the world.