Staff Research Scientist (AI for Self-Driving Labs, 2-year Term)

Date Posted: 03/30/2026

Req ID: 47008

Faculty/Division: Faculty of Arts & Science

Department: Acceleration Consortium

Campus: St. George (Downtown Toronto)

Description:

The Acceleration Consortium (AC) at the University of Toronto (U of T) is leading a transformative shift in scientific discovery that will accelerate technology development and commercialization. The AC is a global community of academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs), also called materials acceleration platforms (MAPs). These autonomous labs rapidly design materials and molecules needed for a sustainable, healthy, and resilient future, with applications ranging from renewable energy and consumer electronics to drugs. AC Staff Research Scientists will advance the field of AI-driven autonomous discovery and develop the materials and molecules required to address society’s largest challenges, such as climate change, water pollution, and future pandemics.

The Acceleration Consortium (AC) promotes an inclusive research environment and supports the EDI priorities of the unit.

The Acceleration Consortium received a $200M Canadian First Research Excellence Grant for seven years to develop self-driving labs for chemistry and materials, the largest ever grant to a Canadian University. This grant will provide the Acceleration Consortium with seven years of funding to execute its vision.

The AC is developing seven advanced SDLs. These include:

• SDL0 - A central AI and Automation lab to support all the SDLs
• SDL1 - Inorganic solid-state compounds for advanced materials and energy
• SDL2 - Organic small molecules for sustainability and health
• SDL3 - Medicinal chemistry for improving small molecule drug candidates
• SDL4 - Polymers for materials science and biological applications
• SDL5 - Formulations for pharmaceuticals, consumer products, and coatings
• SDL6 - Biocompatibility with organoids / organ-on-a-chip
• SDL7 - Synthetic scale-up of materials and molecules (University of British Colombia partnerlab)

This posted position is for a role within SDL0: AI & Automation

Experience in one or more of the following is required:

• Agentic and sequential decision-making for autonomous experimentation, including activelearning and optimal experimental design
• Generative and probabilistic modeling, including uncertainty estimation, risk-aware prediction,and data-efficient learning
• Continual, transfer, and meta-learning, with emphasis on sim-to-real and real-to-simgeneralization
• Applied machine learning on real-world experimental or industrial data, including multivariatetime-series and noisy, sparse, or incomplete datasets
• Close collaboration with experimental scientists, translating scientific objectives into ML-drivenor autonomous systems

The Staff Research Scientists will work with a diverse team of leading experts at U of T, including:Professors Anatole von Lilienfeld, Florian Shkurti, Animesh Garg, Alán Aspuru-Guzik, Oleksandr Voznyy, and more.

The Staff Research Scientists involved in the AC are highly skilled and experienced researchers whowill work independently to develop the AI and automation technologies required to build robust andscalable self-driving labs, manage these SDLs, and design and implement research programs (based on the direction of the AC’s scientific leadership team) that leverage the SDL platforms todiscover materials and molecules. Moreover, the Staff Research Scientists will work collectively, sharing knowledge among each other, faculty, and trainees.

This role will report to the Academic Director and Executive Director of the Acceleration Consortium.

The components and duties of the work include:

SDL and Automation Development

Working with the AC community, including faculty and partners to determine the requiredcapabilities of the SDLs to be built. Developing the plans for SDLs that will meet user requirementsand designing novel instruments for automated material synthesis and characterization. Developing customized hardware and Python software packages to build SDLs. Selection, procurement, andinstallation of the equipment required for SDLs.

Research Direction

Working independently to develop research programs that leverage the AC’s SDLs and supportstheresearch objectives of AC faculty and industry partners. Using SDLs to synthesize and characterizelarge quantities of candidate molecules, calibrating theoretical models with experimental data,predicting promising candidates with computational tools and machine learning algorithms, andelucidating structure-property relationships of emerging molecules, polymers, solid-state materials,formulations, etc.

Tasks include:

• Managing the research and development projects of AC’s industry partners when implementedin AC labs
• Developing plans supporting research collaborations and estimating financial res