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14 results on '"Hurley, Nathaniel"'

1. Investigation of the photoluminescent properties, scintillation behaviour and toxicological profile of various magnesium tungstate nanoscale motifs

Author

Hurley, Nathaniel, Srinivas, Sailesh, Fang, Justin, Sun, Manli, Hong, Simon, Chien, Chia Te, Guo, Alan, Khan, Tamor A, Li, Mingxing, Cotlet, Mircea, Moretti, Federico, Bourret, Edith, Radin, Daniel, Tsirka, Stella E, Shelly, Maya, and Wong, Stanislaus S

Subjects
Nanotechnology, Bioengineering, bioimaging, nanomaterials, oxides, scintillation, synthesis, toxicology
Abstract

We have synthesized several morphologies and crystal structures of MgWO4 using a one-pot hydrothermal method, producing not only monoclinic stars and large nanoparticles but also triclinic wool balls and sub-10 nm nanoparticles. Herein we describe the importance of reaction parameters in demonstrating morphology control of as-prepared MgWO4. Moreover, we correlate structure and composition with the resulting photoluminescence and radioluminescence properties. Specifically, triclinic-phase samples yielded a photoluminescence emission of 421 nm, whereas monoclinic-phase materials gave rise to an emission maximum of 515 nm. The corresponding radioluminescence data were characterized by a broad emission peak, located at 500 nm for all samples. Annealing the wool balls and sub-10 nm particles to transform the crystal structure from a triclinic to a monoclinic phase yielded a radioluminescence (RL) emission signal that was two orders of magnitude greater than that of their unannealed counterparts. Finally, to confirm the practical utility of these materials for biomedical applications, a series of sub-10 nm particles, including as-prepared and annealed samples, were functionalized with biocompatible PEG molecules, and subsequently were found to be readily taken up by various cell lines as well as primary cultured hippocampal neurons with low levels of toxicity, thereby highlighting for the first time the potential of this particular class of metal oxides as viable and readily generated platforms for a range of biomedical applications.

Published
2022

2. Probing the optical properties and toxicological profile of zinc tungstate nanorods.

Author

Fang, Justin, Hurley, Nathaniel, Chien, Chia Te, Guo, Alan, Khan, Tamor A., Li, Mingxing, Cotlet, Mircea, Moretti, Federico, Bourret, Edith, Shifman, Sophie, Tsirka, Stella E., Shelly, Maya, and Wong, Stanislaus S.

Subjects
*OPTICAL properties, *ZINC, *NANORODS, *X-rays, *NUCLEAR counters, *SCINTILLATORS
Abstract

Zinc tungstate is a semiconductor known for its favorable photocatalytic, photoluminescence, and scintillation properties, coupled with its relatively low cost, reduced toxicity, and high stability in biological and catalytic environments. In particular, zinc tungstate evinces scintillation properties, namely the ability to emit visible light upon absorption of energetic radiation such as x rays, which has led to applications not only as radiation detectors but also for biomedical applications involving the delivery of optical light to deep tissue, such as photodynamic therapy and optogenetics. Here, we report on the synthesis of zinc tungstate nanorods generated via an optimized but facile method, which allows for synthetic control over the aspect ratio of the as-synthesized anisotropic motifs via rational variation of the solution pH. We investigate the effect of aspect ratio on their resulting photoluminescent and radioluminescent properties. We further demonstrate the potential of these zinc tungstate nanorods for biomedical applications, such as photodynamic therapy for cancer treatment, by analyzing their toxicological profile within cell lines and neurons. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Probing the Behavior of Composition‐Tunable Ultrathin PtNi Nanowires for CO Oxidation and Small‐Molecule Electrocatalytic Reactions.

Author

Hurley, Nathaniel, Gallagher, Michael, Koenigsmann, Christopher, Stephanie, Elena, Davoudi, Monireh, Plonka, Anna M., Wang, Haodong, Zhang, Lihua, Frenkel, Anatoly I., and Wong, Stanislaus S.

Subjects
OXIDATION of formic acid, NANOWIRES, OXIDATION of methanol
Abstract

We have successfully synthesized ultrathin nanowires of pure Pt, Pt99Ni1, Pt9Ni1, and Pt7Ni3 using a modified room‐temperature soft‐template method. Analysis of both methanol oxidation reaction (MOR) and ethanol oxidation reaction (EOR) results found that the Pt7Ni3 samples yielded the best performance with specific activities of 0.36 and 0.34 mA/cm2 respectively. Additionally, formic acid oxidation reaction (FAOR) tests noted that both Pt and PtNi nanowires oxidize small organic molecules (SOMs) via an indirect pathway. CO oxidation data suggests little measurable performance without any pre‐reduction treatment; however, after annealing in H2, we detected significantly improved CO2 formation for both Pt9Ni1 and Pt7Ni3 motifs. These observations highlight the importance of pre‐treating these nanowires under a reducing atmosphere to enhance their performance for CO oxidation. To explain these findings, we collected extended x‐ray adsorption fine structure (EXAFS) spectroscopy data, consistent with the presence of partial alloying with a tendency for Pt and Ni to segregate, thereby implying the formation of a Pt‐rich shell coupled with a Ni‐rich core. We also observed that the degree of alloying within the nanowires increased after annealing in a reducing atmosphere, a finding deduced through analysis of the coordination numbers and calculations of Cowley's short range order parameters. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Microwave-assisted synthesis of iron sulfide motifs for electrochemical applications

Author

Salvatore, Kenna L, primary, Tang, Christopher R, additional, Bernardez, Edelmy Marin, additional, Wesley, Weiqiao, additional, Fang, Justin, additional, Lee, Katherine, additional, Paltis, Ariadna, additional, Nevers, Chloe, additional, McGuire, Scott C, additional, Hurley, Nathaniel, additional, Tong, Xiao, additional, Takeuchi, Esther S, additional, Takeuchi, Kenneth J, additional, Marschilok, Amy C, additional, and Wong, Stanislaus S, additional

Published
2023
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8. supplementary Information version 15 from Investigation of the photoluminescent properties, scintillation behaviour and toxicological profile of various magnesium tungstate nanoscale motifs

Author

Hurley, Nathaniel, Srinivas, Sailesh, Fang, Justin, Sun, Manli, Hong, Simon, Chien, Chia Te, Guo, Alan, Khan, Tamor A., Li, Mingxing, Cotlet, Mircea, Moretti, Federico, Bourret-Courchesne, Edith, Radin, Daniel, Tsirka, Stella E., Shelly, Maya, and Wong, Stanislaus S.

Abstract

We have synthesized several morphologies and crystal structures of MgWO4 using a one-pot hydrothermal method, producing not only monoclinic stars and large nanoparticles but also triclinic wool balls and sub-10 nm nanoparticles. Herein we describe the importance of reaction parameters in demonstrating morphology control of as-prepared MgWO4. Moreover, we correlate structure and composition with the resulting photoluminescence and radioluminescence properties. Specifically, triclinic-phase samples yielded a photoluminescence emission of 421 nm, whereas monoclinic-phase materials gave rise to an emission maximum of 515 nm. The corresponding radioluminescence data were characterized by a broad emission peak, located at 500 nm for all samples. Annealing the wool balls and sub-10 nm particles to transform the crystal structure from a triclinic to a monoclinic phase yielded an RL emission signal that was two orders of magnitude greater than that of their unannealed counterparts. Finally, to confirm the practical utility of these materials for biomedical applications, a series of sub-10 nm particles, including as-prepared and annealed samples, were functionalized with biocompatible PEG molecules, and subsequently were found to be readily uptaken by various cell lines as well as primary cultured hippocampal neurons with low levels of toxicity, thereby highlighting for the first time the potential of this particular class of metal oxides as viable and readily generated platforms for a range of biomedical applications.

Published
2022
Full Text
View/download PDF

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