Toronto, Ontario, Canada
April 2025
Partnership agreement leverages AI and automation to design new chemical products with applications in crop protection, industrial coatings and drug delivery
In the Formulations Lab at U of T's Acceleration Consortium, co-led by Professors Frank Gu (ChemE) and Christine Allen (Leslie Dan Faculty of Pharmacy), Staff Research Scientist Aaron Clasky leverages AI and robotics to speed up the search for new chemical technologies. This approach, known as self-driving labs, is key to a new partnership between U of T and BASF. (photo by Tyler Irving)
Researchers from across the University of Toronto have teamed with BASF to develop an array of new chemical technologies for sectors from agriculture to architecture.
Several projects have been launched so far under a new framework agreement for collaborative research, the first one BASF has signed with a Canadian university.
Many of the projects involve self-driving labs, a concept at the centre of U of T’s Acceleration Consortium, a global initiative dedicated to accelerating scientific discovery. Self-driving labs use artificial intelligence and automation to create new materials and molecules for a fraction of the usual time and cost.
“The question we often need to answer when creating new chemical products is: given these design constraints, how many different possible molecules or formulations could we make?” says Professor Frank Gu (ChemE), one of several U of T researchers involved in the collaboration.
“A human mind might be able to come up with two, three or maybe ten different possibilities. But using AI, we can generate hundreds, including ones we might never have thought of otherwise.”
Within these model chemical libraries, AI algorithms can quickly conduct large numbers of virtual tests to screen for the most promising solutions. These can then be synthesized and tested in a physical lab, with the results fed back into the model to improve future iterations.
For example, Gu and his collaborators are working with a family of naturally occurring biopolymers derived from plants.
Agricultural researchers have previously tested some of these molecules as biostimulants, meaning that they could help activate the natural defenses of a target crop against pests or disease. But they also have other useful properties.
“These biopolymers are very hydrophilic materials, which means they are able to absorb and retain water,” says Gu.
“By taking up water when the soil is too wet, and releasing it when it is too dry, they can help regulate soil moisture.
“On top of that, they can also be used as delivery vehicles: we can wrap an active ingredient, like a pesticide or fertilizer, in a coating made of these biopolymers. If we design the coating well, it can slowly release the active ingredient next to the plant, where needed, rather than letting it get washed away by rain.”
Using the biopolymers for targeted delivery can enable farmers to use less of the active ingredient and reduce the pollution problems associated with agricultural runoff, improving both economics and sustainability.
The challenge is that there are hundreds of potential biopolymer formulations to choose from. By working with the Acceleration Consortium, where Gu co-leads the Formulations self-driving lab, the team is betting that the power of self-driving labs can speed up the search.
The project is just one of many catalyzed by the new agreement with BASF, which builds on previous collaborations with U of T researchers, including Professors Eugenia Kumacheva and Mitchell Winnik, both from the Department of Chemistry in the Faculty of Arts & Science.
In addition to agriculture, some of the collaborations are focused on new coatings that can extend the life of architectural materials, while others aim to deliver drugs to targeted areas of the human body.
“For us, it’s all about molecules,” says Gu. “Whether we are delivering an anti-cancer drug, or a smarter crop application, or a protective coating, it’s all about finding the best potential solution out of the huge number of possibilities.”
By offering collaboration opportunities in cutting-edge research and leveraging innovative technologies, U of T and BASF researchers are aiming to solve challenges in sustainability, aligning with BASF’s mission in creating chemistry for a sustainable future.
“Our interactions with faculty members Frank Gu, Christine Allen, Eugenia Kumacheva, and Alan Aspuru-Guzik have been positive and productive,” says Wen Xu, Senior Principal Scientist, Agricultural Solutions, BASF Corporation.
“The projects in scope are advancing efforts in predictive properties, advanced biomaterials and sustainable delivery of agrochemicals. Overall, our collaboration with the University of Toronto promises significant advancements in sustainable agriculture through innovative research and development.”
“The University of Toronto has placed a big bet on innovation in the materials domain through our Acceleration Consortium, combining advances in robotics and artificial intelligence with subject matter expertise in chemistry, materials science, pharmaceuticals and chemical engineering,” says Professor David Wolfe, U of T’s Acting Associate Vice-President, International Partnerships.
“But in order for our research to truly move the needle in this field, we need to work with world-leaders who develop, validate and manufacture materials at scale. BASF, as one of the world’s largest and most innovative chemical companies, is better positioned than anyone to inspire and be inspired by the work we do.”
The full list of principal investigators at U of T and BASF who have launched new collaborations under the agreement so far includes:
- Professor Alan Aspuru-Guzik, Department of Chemistry, Faculty of Arts & Science and Wen Xu, Senior Principal Scientist, Agricultural Solutions, BASF Corporation
- Professor Christine Allen, Leslie Dan Faculty of Pharmacy and Wen Xu, Senior Principal Scientist, Agricultural Solutions, BASF Corporation
- Professor Eugenia Kumacheva, Department of Chemistry, Faculty of Arts & Science and Liangliang Echo Qu, Senior Scientist I, Research North America, BASF Corporation
- Professor Frank Gu, Department of Chemical Engineering & Applied Chemistry, Faculty of Applied Science & Engineering and Wen Xu, Senior Principal Scientist, Agricultural Solutions, BASF Corporation
- Professor Justin Nodwell, Department of Biochemistry, Temerty Faculty of Medicine; Ai-Jiuan Wu, Senior Research Scientist III, Agricultural Solutions, BASF Corporation and Kavita Bitra, Multicrop and Innovation Sourcing Lead, Agricultural Solutions, BASF Corporation
Team members from U of T and BASF met on the St. George campus on May 16, 2024 for a research discovery session. Left to right: Illan Kramer, Director, International Research Partnerships, U of T; Sindhu Menon, Partnership Development Officer, Faculty of Applied Science & Engineering, U of T; Lorena Lujan Rubio, Manager, Strategic Partnerships – Innovation and Sustainability, BASF; Irene Yang, Investment Principal, BASF Venture Capital Americas, BASF; Thomas Holcombe, Head of Collaboration & Scouting North America, BASF; Benjamin Knudsen, Vice President, Research North America, BASF; Glaucia Lima, Business Development Officer, U of T; Alex Ip, Co-Founder & CEO, Cert Systems; Marilia Ramos, Business & Research Development Officer, Department of Mechanical & Industrial Engineering, U of T.
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