Publications
Underlined names indicate undergraduate student co-authors. Boldface names indicate graduate student co-authors.
20. Characterization of molecular environments and chemical exchange in acrylic paints via single-sided NMR
Lyndi Kiple, Tyler Lee, Gillian Zavaglia, Tyler Meldrum. Prog. Org. Coat. 2023, 183, 107770.
19. Automated optimization of spatial resolution for single-sided NMR
Lyndi Kiple, Jack Ballenger, Kristina Keating, Anagi Balachandra, Tyler Meldrum. Magn. Reson. Chem. 2023, 61(7), 418–426.
18. Effect of pigment concentration on NMR relaxometry in acrylic paints
Rooney, M. T.; Meldrum, T. Magn. Reson. Chem. 2020, 58(9), 880–888.
17. Monitoring real‐time curing of epoxies in situ using single‐sided NMR
Kelley, M.; Abdol, N.; Soroushian, P.; Keating, K.; Balachandra, A. M.; Meldrum, T. J. Polym. Sci. 2020, 58, 616–623.
16. Revealing the distribution of metal carboxylates in oil paint from the micro- to nanoscale
Ma, X.; Beltran, V.; Ramer, G.; Pavlidis, G.; Parkinson, D. Y.; Thoury, M.; Meldrum, T.; Centrone, A.; Berrie, B. Angew. Chem. Int. Ed. 2019, 58, 11652–11656.
15. Probing molecular dynamics with hyperpolarized ultrafast Laplace NMR using a low-field, single-sided magnet
King, J. N.; Fallorina, A.; Yu, J.; Zhang, G.; Telkki, V.-V.; Hilty, C; Meldrum, T. Chem. Sci. 2018, 9, 6143–6149.
14. Spatially Resolved Measurements of Crosslinking in UV-Curable Coatings Using Single-Sided NMR
Brass, M.; Morin, F.; Meldrum, T. Magnetochemistry 2018, 4(1), 8.
13. Automatizing the Comparison of NMR Depth Profiles
Rehorn, C.; Kehlet, C.; Del Federico, E.; Zia, W.; Meldrum, T.; Blümich, B. Strain 2017, e12254.
12. Physical and chemical properties of traditional and water-mixable oil paints assessed using single-sided NMR
Udell, N. A.; Hodgkins, R. E.; Berrie, B. H.; Meldrum, T. Microchem. J. 2017, 133, 31–36.
11. Evidence for the Accumulative Effect of Organic Solvent Treatments on Paintings and What to Do about It: A Case Study of Two “Identical” Seventeenth-Century Paintings Using Single-Sided Nuclear Magnetic Resonance
Fife, G.; Stabik, B.; Blümich, B.; Hoppenbrouwers, R.; Meldrum, T. ; In The Noninvasive Analysis of Painted Surfaces: Scientific Impact and Conservation Practice; Nevin, A. and Doherty, T., Eds. Smithsonian Contribution to Museum Conservation 2016, 5(5), 15–23.
10. Ultrafast Multidimensional Laplace NMR Using a Single-sided Magnet
King, J. N.; Lee, V. J.; Ahola, S.; Telkki, V-V.; Meldrum, T. Angew. Chemie Int. Ed. 2016, 55, 5040–5043.
9. Characterization of aging and solvent treatments of painted surfaces using single-sided NMR
Fife, G.; Stabik, B.; Kelley, A. E.; King, J. N.; Blumich, B.; Hoppenbrouwers, R.; Meldrum, T. Magn. Reson. Chem. 2014, 53, 58–63.
8. Hyperpolarized Xenon-Based Molecular Sensors for Label-Free Detection of analytes
Garimella, P. D.; Meldrum, T.; Witus, L. S.; Smith, M.; Bajaj, V S.; Wemmer, D. E.; Francis, M. B.; Pines, A. J. Am. Chem. Soc. 2014, 136, 164–168.
7. Nondestructive Investigation of the Internal Structure of Fresco Paintings. (In 2013 Digital Heritage International Congress DigitalHeritage)
Fukunaga, K.; Meldrum, T.; Zia, W.; Ohno, M.; Fuchida, T.; Blumich, B. IEEE 2013, 1, 81–88.
6. Band-Selective Chemical Exchange Saturation Transfer Imaging with Hyperpolarized Xenon-Based Molecular Sensors
Meldrum, T.; Bajaj, V. S.; Wemmer, D. E.; Pines, A. J. Magn. Reson. 2011, 13, 14–21.
5. Xenon-Based Molecular Sensors in Lipid Suspensions
Meldrum, T.; Schröder, L.; Denger, P.; Wemmer, D. E.; Pines, A. J. Magn. Reson. 2010, 205, 242–246. (Cover article.)
4. A Xenon-Based Molecular Sensor Assembled on an MS2 Viral Capsid Scaffold
Meldrum, T.; Seim, K. L.; Bajaj, V. S.; Palaniappan, K. K.; Wu, W.; Francis, M. B.; Wemmer, D. E.; Pines, A. J. Am. Chem. Soc. 2010, 132, 5936–5937.
3. Xenon Biosensors for Multi-Purpose Molecular Imaging (World Congress on Medical Physics and Biomedical Engineering)
Schröder, L.; Meldrum, T.; Smith, M.; Schilling, F.; Denger, P.; Zapf, S.; Wemmer, D. E.; Pines, A. September 7–12, 2009, Munich, Germany. IFMBE Proc. 2009, 25/13, 176–179.
2. Temperature-Controlled Molecular Depolarization Gates in Nuclear Magnetic Resonance
Schröder, L.; Chavez, L.; Meldrum, T.; Smith, M.; Lowery, T. J.; Wemmer, D. E.; Pines, A. Angew. Chem. Int. Ed. 2008, 47, 4316–4320. (Frontispiece.)
1. Temperature Response of 129Xe Depolarization Transfer and Its Application for Ultrasensitive NMR Detection
Schröder, L.; Meldrum, T.; Smith, M.; Lowery, T. J.; Wemmer, D. E.; Pines, A. Phys. Rev. Lett. 2008, 100, 257603(4).