Tyler E. Stevens
Sandia National Laboratories
12 Papers
31 Citations
Tyler E. Stevens is an academic researcher from Sandia National Laboratories. The author has contributed to research in topics: Nanoparticle & Crystal structure. The author has an hindex of 5, co-authored 10 publications.
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Papers
Imaging of Her2-targeted magnetic nanoparticles for breast cancer detection: comparison of SQUID-detected magnetic relaxometry and MRI.
Natalie L. Adolphi,Kimberly S. Butler,Debbie M. Lovato,Trace E. Tessier,Jason E Trujillo,Helen J. Hathaway,Danielle L. Fegan,Todd C. Monson,Tyler E. Stevens,Dale L. Huber,Jaivijay Ramu,Michelle L. Milne,Stephen A. Altobelli,H.C. Bryant,Richard S. Larson,Edward R. Flynn +15 more
TL;DR: The potential of SQUID-detected magnetic relaxometry imaging for the specific detection of breast cancer and the monitoring of magnetic nanoparticle-based therapies is demonstrated.
Off-Resonance Photosensitization of a Photorefractive Polymer Composite Using PbS Nanocrystals
Jong-Sik Moon,Yichen Liang,Tyler E. Stevens,Todd C. Monson,Dale L. Huber,Benjamin D. Mahala,Jeffrey G. Winiarz +6 more
TL;DR: In this paper, the first excitonic transition associated with the PbS nanocrystals lies at ∼1220 nm and not the wavelength of operation, and the results demonstrate the ability of semiconductor nanocrystal to compete effectively with traditional organic photosensitizers.
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Self-Assembled Array of Tethered Manganese Oxide Nanoparticles for the Next Generation of Energy Storage.
TL;DR: A tethered array of nanoparticles, MnO in this case, bound directly to a gold current collector via short conducting linkages eliminates the need for fillers, resulting in a material which achieves 99.9% active material by mass (excluding the current collector).
Unprecedented magnetic behaviour in lanthanide-based ionic liquids.
Todd C. Monson,Tyler E. Stevens,Jean L. Leger,Jamie L. Manson,Katherine S. Lovejoy,Aimee L. Newsham,Rico E. Del Sesto +6 more
TL;DR: The ionic liquid structural glass formation appears to drive magnetic behaviour due to cluster formation of the anions during rapid cooling, which presents a possible probe to study the dynamics of glass forming materials.
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Soft Magnetic Multilayered FeSiCrB–Fe $_{x}$ N Metallic Glass Composites Fabricated by Spark Plasma Sintering
Todd C. Monson,Baolong Zheng,Robert E. Delany,Charles J. Pearce,Eric Langlois,Stefan M. Lepkowski,Tyler E. Stevens,Yizhang Zhou,Stanley Atcitty,Enrique J. Lavernia +9 more
TL;DR: In this paper, a multilayered FeSiCrB-Fe petertodd x�N (1 = 2-4) metallic glass composites were fabricated using spark plasma sintering of amorphous ribbons (Metglas 2605SA3 alloy).
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