Richard Hailstone
Associate Professor
Chester F. Carlson Center for Imaging Science
College of Science
Office Location
Office Mailing Address
Center for Imaging Science Room 2239
Richard Hailstone
Associate Professor
Chester F. Carlson Center for Imaging Science
College of Science
Education
BS, Northern Illinois University; MS, Indiana University
Areas of Expertise
Transmission Electron Microscopy
Scanning Electron Microscopy
Imaging Science
Select Scholarship
Journal Paper
Alharbi, Najat, Benjamin Varela, and Richard Hailstone. "Alkali-Activated Slag Characterization by Scanning Electron Microscopy, X-ray Microanalysis and Nuclear Magnetic Resonance Spectroscopy." Materials Characterization 168. (2020): 110504. Print.
Anthony, Leggiero,, et al. "Platinum Nanometal Interconnection of Copper-Carbon Nanotube Hybrid Conductors." Carbon 168. (2020): 290-301. Print.
Bhattacharya, Swapnil, Richard Hailstone, and Christopher Lewis. "Thermoplastic Blend Exhibiting Shape Memory Assisted Self-Healing Functionality." ACS Applied Materials & Interfaces 12. (2020): 46733 - 46742. Print.
Ge, Changfeng, et al. "Preparation and Evaluation of Composites Comprising Polyproplyene and Cotton Gin Trash." Journal of Applied Polymer Science 168. (2020): https://doi-org.ezproxy.rit.edu/10.1002/app.49151. Web.
Zotta, Matthew, et al. "The Determination and Application of the Point Spread Function in the Scanning Electron Microscop." Microscopy and Microanalysis 24. (2018): 396-405. Print.
Hailstone, Richard K., et al. "Modeling Setting Time and Compressive Strength in Sodium Carbonate Activated Blast Furnace Slag Mortars Using Statistical Mixture Design." Cement and Concrete Composites. (2015): --. Print.
Hailstone, Richard K., et al. "Is Iron Doping of Nanoceria Possible at Low Temperatures?" J. Nanoparticle Research. (2014) Print.
Hailstone, Richard K., et al. "One-Vessel Synthesis of Iron Oxide Nanoparticles Prepared in Non-Polar Solvent." RCS Advances. (2014) Print.
Heckman, K L., et al. "Custom Cerium Oxide Nanoparticles Protect against a Free Radical Mediated Autoimmune Degenerative Disease in the Brain." ACS Nano 7. 12 (2013): 10582-10596. Print.
Heckman, K L., et al. "Custom Cerium Oxide Nanoparticles Protect against a Free Radical Mediated Autoimmune Degenerative Disease in the Brain." ACS Nano DOI: 10.1021/nn40374. (2013) Print.
Hailstone, Richard K., et al. "Iron and Zirconium Doping of Ceria at Low Temperatures." Journal of Physical Chemistry C submitted. (2012) Print.
Pierce, Michael S., et al. "The Influence of Structural Disorder on Magnetic Domain Formation in Ferromagnetic Thin Films." Physical Review B submitted. (2012) Print.
Published Conference Proceedings
S., Bhattacharya,, Hailstone, R., and Lewis, C. "Thermoplastic Elastomer Blend Exhibiting Combined Shape Memory and Self Healing Functionality." Proceedings of the ANTEC 2020. Ed. ***. Virtual, Virtual: n.p., Web.
McIntyre, Dylan J., et al. "Integrated Titanium-Carbon Nanotube Conductors via Joule-heating Driven Chemical Vapor Deposition." Proceedings of the 237th Electrochemical Society. Virtual, Virtual: n.p., Web.
Lifshin, Eric, et al. "Some Thoughts on Point Spread Functions, Resolutions, and Image Quality." Proceedings of the Microscopy & Microanalysis 2018. Ed. Robert Price. New York, NY: Cambridge University Press, Print.
Nevins, Mandy, et al. ", Baltimore, MD, August. Mandy Nevins, Matthew Zotta, Richard Hailstone, Eric Lifshin (2018). “Visualizing Astigmatism in the SEM Electron Probe." Proceedings of the Microscopy & Microanalysis 2018. Ed. Robert Price. New York, NY: Cambridge University Press, 2018. Print.
Alharbi, Najat, Richard Hailstone, and Benjamin Varela. "Quantitative Elemental Mapping of Alkali Activated Slag Cement." Proceedings of the Microscopy & Microanalysis 2018. Ed. Robert Price. New York, NY: Cambridge University Press, 2018. Print.
Currently Teaching
IMGS-341
Interactions Between Light and Matter
3 Credits
This course introduces the principles of how light interacts with matter. The principles of atomic physics as applied to simple atoms are reviewed and extended to multi-electron atoms to interpret their spectra. Molecular structure and spectra are covered in depth, including the principles of lasers. The concepts of statistical physics concepts are introduced and applied to the structure of crystalline solids, their band structure and optical properties. These concepts are then used to understand electronic imaging devices, such as detectors.
IMGS-613
Noise and System Modeling
2 Credits
This course develops models of noise and random processes within the context of imaging systems. The focus will be on stationary random processes in the spatial and spatial frequency domain. The concept of image noise is introduced in both the analog and digital domain. Random processes are studied in both the spatial and spatial frequency domain stressing the autocorrelation function and the power density spectrum. The application of random processes to the understanding of signal noise in imaging systems in both the continuous and the digital domains is presented. Tools for modeling signal and noise transfer are emphasized. At the completion of the course the student should have the ability to model signal and noise transfer within a multistage imaging system.
IMGS-699
Imaging Science Graduate Co-op
0 Credits
This course is a cooperative education experience for graduate imaging science students.
IMGS-790
Research & Thesis
1 - 6 Credits
Masters-level research by the candidate on an appropriate topic as arranged between the candidate and the research advisor.
IMGS-799
Imaging Science Independent Study
1 - 4 Credits
This course is a faculty-directed tutorial of appropriate topics that are not part of the formal curriculum. The level of study is appropriate for student in their graduate studies.
IMGS-890
Research & Thesis
1 - 6 Credits
Doctoral-level research by the candidate on an appropriate topic as arranged between the candidate and the research advisor.
IMGS-891
Continuation of Thesis
0 Credits
Continuation of Thesis