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Changing the world, one commit at a time
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Changing the world, one commit at a time

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ziatdinovmax/README.md

Hi there 👋

My expertise lies in designing and implementing custom machine learning solutions that drive research and development, with a current focus on AI-powered materials design and characterization. With a proven track record of collaborating closely with academic and industry partners, I excel at translating complex domain-specific challenges into efficient machine learning codes and workflows. During my 10-year tenure at the U.S. Department of Energy’s national labs (ORNL and PNNL), I led the development of machine learning codes that enabled autonomous experimentation in scanning probe and electron microscopy, and were later extended to neutron scattering experiments, chemical synthesis, and battery state-of-health assessments. To support my peers, I have authored multiple widely used open-source software packages, such as AtomAI and GPax, which streamline machine learning integration into experimental research. I also introduced the concept of the Jupyter paper to enhance transparency and reproducibility in research. My vision for the future is one where human-AI collaboration paves the way for rapid scientific innovation and practical applications.

My Latest Blog Posts 📖:

My Recent Papers 📜

  • "Dynamic STEM-EELS for Single-Atom and Defect Measurement During Electron Beam Transformations." Science Advances (2024). Contribution: Developed a deep learning-based rapid object detection and action system (RODAS) and oversaw its implementation on multi-million-dollar electron microscope.
  • "Experimental Discovery of Structure–Property Relationships in Ferroelectric Materials via Active Learning." Nature Machine Intelligence (2022). Contribution: Developed an automated workflow for active learning of the relationship between local structures and physical properties in multi-modal experiments.
  • "From Atomically Resolved Imaging to Generative and Causal Models." Nature Physics (2022). Contribution: Introduced AI-driven extraction of domain-specific information from microscopy data for building generative models over a broader parameter space and exploring causal mechanisms underpinning functionalities.
  • "Hypothesis Learning in Automated Experiment: Application to Combinatorial Materials Libraries." Advanced Materials (2022). Contribution: Developed an active hypothesis learning approach based on co-navigation of the hypothesis and experimental spaces in automated experiments, allowing physics discovery via active learning of competing hypotheses.
  • See the full list here

My Recent Patents 💡

  • Ziatdinov, Maxim A., et al. "Science-driven automated experiments." U.S. Patent No. 11,982,684. 14 May 2024.

Pinned Loading

  1. pycroscopy/atomai pycroscopy/atomai Public

    Deep and Machine Learning for Microscopy

    Python 194 41

  2. pyroVED pyroVED Public

    Invariant representation learning from imaging and spectral data

    Python 48 11

  3. gpax gpax Public

    Gaussian Processes for Experimental Sciences

    Python 212 28

  4. NeuroBayes NeuroBayes Public

    Fully and Partially Bayesian Neural Nets

    Python 24 5