Jeffrey N. Anker
Clemson University
98 Papers
418 Citations
Jeffrey N. Anker is an academic researcher from Clemson University. The author has contributed to research in topics: Luminescence & Nanoparticle. The author has an hindex of 30, co-authored 84 publications. Previous affiliations of Jeffrey N. Anker include Argonne National Laboratory & University of Chicago.
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Papers
Biosensing with plasmonic nanosensors
TL;DR: This paper introduces the localized surface plasmon resonance (LSPR) sensor and describes how its exquisite sensitivity to size, shape and environment can be harnessed to detect molecular binding events and changes in molecular conformation.
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Reactive oxygen species generation by copper(II) oxide nanoparticles determined by DNA damage assays and EPR spectroscopy
Carlos Angelé-Martínez,KhanhVan T. Nguyen,Fathima S. Ameer,Jeffrey N. Anker,Julia L. Brumaghim +4 more
TL;DR: Copper(II) oxide nanoparticles (NPCuO) generate significantly more ROS and DNA damage in the presence of ascorbate than can be explained simply from dissolved copper, and the NPCuO surface must play a large role.
Cationic polymer for selective removal of GenX and short-chain PFAS from surface waters and wastewaters at ng/L levels
Mohamed Ateia,Arifuzzaman,Steven Pellizzeri,Mohamed F. Attia,Nishanth Tharayil,Jeffrey N. Anker,Tanju Karanfil +6 more
TL;DR: The performance of poly DMAPAA-Q hydrogel was maintained in six consecutive adsorption/regeneration cycles to remove PFAS and exhibits a great potential for being a promising material for PFAS control.
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Magnetically modulated optical nanoprobes
Jeffrey N. Anker,Raoul Kopelman +1 more
TL;DR: MagMOON as discussed by the authors is a magnetically modulated optical nanoprobes (MAGMOONs) to magnetically modify the signal from fluorescent probes and thus separate it from autofluorescence, electronic offsets, and other background signals.
Advances in functional X-ray imaging techniques and contrast agents
TL;DR: This review discusses how X-ray absorption, X- Ray fluorescence, and X-Ray excited optical luminescence can be used for physiological, elemental, and molecular imaging of vasculature, tumors, pharmaceutical distribution, and the surface of implants.
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