Personal profile
Education/Academic qualification
PHD, University of Glasgow
… → 1985
BS, University of Glasgow
… → 1981
Fingerprint
- 1 Similar Profiles
Collaborations and top research areas from the last five years
Grants
- 37 Finished
-
MRI: Acquisition of a Dual Transmission X-ray Diffractometer (DTXRD) for Studying the Local and Bulk Structure of Soft and Hard Materials under In situ and Operando Conditions
Bose, M. (CoI), Sanchez Esqueda, I. (CoI), Wang, L. (CoI), Mada Kannan, A. (CoI), Long, T. (CoI), Bertoni, M. (CoI), Deng, S. (CoI), Fan, Z. (CoI), Hoover, C. (CoI), Shock, E. (CoI), Holman, Z. (CoI), Tao, M. (CoI), Navrotsky, A. (CoI), Hwa, Y. (CoI), Westerhoff, P. (CoI), Azeredo, B. (CoI), Ankit, K. (CoI), Seo, D. (CoI), Zhang, Y.-H. (CoI), Hartnett, H. (CoI), Fromme, P. (CoI), Ruff, S. (CoI), Yang, S. (CoI), Jin, K. (CoI), Rolston, N. (CoI), Lind, M. L. (CoI), Stechel, E. (CoI), Garcia Segura, S. (CoI), Yarger, J. (CoI), Wang, R. (CoI), Birkel, C. (PI), Nian, Q. (CoI), Neithalath, N. (CoI), Rajagopalan, J. (CoI), Chan, C. (CoI), Milcarek, R. (CoI), Sayres, S. (CoI), Crozier, P. (CoI), Tongay, S. A. (CoI), Yao, Y. (CoI), Sieradzki, K. (CoI) & Yu, H. (CoI)
National Science Foundation (NSF)
9/1/22 → 8/31/25
Project: Research project
-
Probing the Vibrational States of Surface Sites on Catalytic Nanoparticles with Atomic Resolution Electron Energy-Loss Spectroscopy
Crozier, P. (PI)
National Science Foundation (NSF)
7/15/21 → 6/30/24
Project: Research project
-
MsRI-EC: Enabling Transformative Advances in Materials Engineering through Development of Novel Approaches to Electron Microscopy
Crozier, P. (PI)
National Science Foundation (NSF)
8/1/20 → 1/31/21
Project: Research project
-
Collaborative Research: Atomic Level Structural Dynamics in Catalysts
Crozier, P. (PI)
National Science Foundation (NSF)
10/1/19 → 9/30/23
Project: Research project
-
Revealing information from weak signals in electron energy-loss spectroscopy with a a deep denoiser
Wang, Y., Tan, M., Fernandez-Granda, C. & Crozier, P. A., Feb 2026, In: Micron. 201, 103957.Research output: Contribution to journal › Article › peer-review
-
Correlating Photo-Induced Changes in Surface Charge and Electronic Conductivity in Oxide Nanoparticles with In Situ Electron Microscopy
Haluai, P., McCartney, M. R., Wang, Y. & Crozier, P. A., Jun 3 2025, In: ACS nano. 19, 21, p. 19567-19577 11 p.Research output: Contribution to journal › Article › peer-review
-
Dynamic Atomic Column Detection in Transmission Electron Microscopy Videos via Ridge Estimation
Xu, Y., Thomas, A. M., Crozier, P. A. & Matteson, D. S., 2025, In: IEEE Transactions on Image Processing. 34, p. 1588-1601 14 p.Research output: Contribution to journal › Article › peer-review
3 Link opens in a new tab Scopus citations -
Learn, Denoise, and Discover: A guide to deep denoising with an application to electron microscopy
Mohan, S., Liu, K., Crozier, P. A., Fernandez-Granda, C. & Kamilov, U. S., 2025, In: IEEE Signal Processing Magazine. 42, 2, p. 38-56 19 p.Research output: Contribution to journal › Article › peer-review
1 Link opens in a new tab Scopus citations -
Visualizing nanoparticle surface dynamics and instabilities enabled by deep denoising
Crozier, P. A., Leibovich, M., Haluai, P., Tan, M., Thomas, A. M., Vincent, J., Mohan, S., Morales, A. M., Kulkarni, S. A., Matteson, D. S., Wang, Y. & Fernandez-Granda, C., Feb 28 2025, In: Science. 387, 6737, p. 949-954 6 p.Research output: Contribution to journal › Article › peer-review
28 Link opens in a new tab Scopus citations
Press/Media
-
Arizona State University Reports Findings in Nanoparticles (Correlating Photo-Induced Changes in Surface Charge and Electronic Conductivity in Oxide Nanoparticles with In Situ Electron Microscopy)
6/4/25
1 item of Media coverage
Press/Media: Press / Media
-
Scientists use AI to better understand nanoparticles
3/13/25
1 item of Media coverage
Press/Media: Press / Media
-
Scientists use AI to better understand nanoparticles: Study
3/3/25 → 3/4/25
4 items of Media coverage
Press/Media: Press / Media
-
Scientists Use AI to Reveal Hidden Movements of Nanoparticles in Real Time
3/4/25
1 item of Media coverage
Press/Media: Press / Media
-