Postdoc/Computational Researcher; Quantum Computing Chemistry and Biology at St. Jude Chil
Memphis, Shelby County, Tennessee, 37544, USA
Listed on 2026-07-13
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Research/Development
Research Scientist, AI Business & Operations, Data Scientist, Biomedical Science
Postdoc/Computational Researcher (Quantum Computing for Chemistry and Biology) job e Children's Research Hospital. Memphis, TN.
Join an excellent team of researchers dedicated to coming closer to the mission of St. Jude Children's Research Hospital, that no child will die at the dawn of life. The Quantum AI for Bio (QAI4
Bio) Lab led by Dr. Christoph Gorgulla in the Center of Excellence for Data-Driven Discovery in the Structural Biology Department seeks a skilled and highly motivated Postdoc or Computational Researcher in quantum machine learning. Our research group is focused on developing state‑of‑the‑art computational methods for ligand/drug discovery, using machine learning, high‑performance/cloud computing, and quantum chemistry and quantum computing. Our group also includes a wet lab dedicated to experimentally verifying the computationally predicted results in real‑world drug discovery projects.
You will join an interdisciplinary team to push the boundaries of what’s possible at the intersection of artificial intelligence and molecular modeling, building novel AI systems to advance discovery in chemistry, ligand discovery, and quantum approaches.
The successful candidate will have the opportunity to lead collaborative projects, mentor junior scientists and students, and contribute to high‑impact publications. By working together in a collaborative and intellectually stimulating environment, you will have the opportunity to make a lasting impact on the lives of children fighting cancer and other life‑threatening diseases.
The position can be a Postdoc position or a Computational Researcher position, depending on the preference of the candidate.
Key Responsibilities- Develop and optimize quantum machine learning methods for problems in molecular modeling (e.g. drug discovery and/or quantum chemistry)
- Collaborate with computational chemists, structural biologists, and experimental scientists within the QAI4
Bio Lab and the broader Structural Biology Department. - Collaborate closely with domain scientists to define impactful research directions and translate theory into practice
- Contribute to large‑scale computational pipelines for tasks such as molecular property prediction, drug discovery, or quantum circuit design
- Publish high‑quality research in top‑tier journals and conferences
- Work with colleagues to deploy models into production research platforms or scientific software tools
- Proven hands‑on experience (3+ years preferred) in quantum computing and quantum machine learning research and development
- Proficiency in deep learning frameworks such as PyTorch or Tensor Flow.
- Proficiency in quantum computing frameworks such as Qiskit, CUDA Q, Pennylane, …
- Excellent programming skills in Python.
- Ability to work independently in a fast‑paced, interdisciplinary environment
- PhD in Computer Science, Chemistry, Physics, Engineering, or a related discipline.
- Expertise in quantum chemistry
- Demonstrated expertise in applying geometric deep learning to 3D data, such as experience with Graph Neural Networks (GNNs) for molecular graphs, deep learning on 3D point clouds or volumetric data for molecular structures, and/or understanding of molecular descriptors and featurization for deep learning.
- Familiarity with molecular modeling software (e.g., RDKit, Open Babel) and/or structural biology concepts is highly desirable.
- Experience with cloud or HPC environments and GPU‑based training pipelines
- Record of publications in AI/ML and physical sciences journals or conferences
- Familiarity with quantum/chemistry software
We highly value the dynamic and collaborative environment fostered by in‑person or hybrid work arrangements, which allows for seamless direct engagement and deep team synergy. In exceptional cases, we are also open to exploring fully remote work, with regular periodic travel to our Memphis campus for essential meetings and key collaborative sessions.
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