Eric Brown
University of Wisconsin–Whitewater
22 Papers
228 Citations
Eric Brown is an academic researcher from University of Wisconsin–Whitewater. The author has contributed to research in topics: Photothermal therapy & Nanoconjugates. The author has an hindex of 14, co-authored 22 publications. Previous affiliations of Eric Brown include North Park University & Northwestern University.
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Papers
A Near Infrared Light Triggered Hydrogenated Black TiO2 for Cancer Photothermal Therapy
Wenzhi Ren,Yong Yan,Leyong Zeng,Zhenzhi Shi,An Gong,Peter Schaaf,Dong Wang,Jinshun Zhao,Baobo Zou,Hongsheng Yu,Ge Chen,Eric Brown,Aiguo Wu +12 more
TL;DR: It is shown that photothermal effect of H‐TiO2 NPs can be attributed to their dramatically enhanced nonradiative recombination, and they exhibit low toxicity, high efficiency as a photothermal agent for cancer therapy, and are promising for further biomedical applications.
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Nanoparticles for Applications in Cellular Imaging
K. Ted Thurn,Eric Brown,Aiguo Wu,Stefan Vogt,Barry Lai,Jörg Maser,Tatjana Paunesku,Gayle E. Woloschak +7 more
TL;DR: Several types of nanoparticles (such as TiO2, quantum dots, and gold nanoparticles) are discussed and their impact on the ability to image biological components in fixed cells and factors influencing nanoparticle imaging and uptake in live cells in vitro are discussed.
Layered bismuth oxyhalide nanomaterials for highly efficient tumor photodynamic therapy
TL;DR: This investigation focuses on applying layered bismuth oxyhalide nanomaterials toward cancer PDT, an application that has never been reported so far and indicates that the efficiency of UV-triggered PDT was highest when using BiOCl nanoplates followed by BiOcl nanosheets, and then TiO2.
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Stability enhanced polyelectrolyte-coated gold nanorod-photosensitizer complexes for high/low power density photodynamic therapy
TL;DR: Due to synergistic plasmonic photothermal properties of the complexes, the high/low PDT mode demonstrated improved efficacy over using single wavelength continuous laser irradiation, and no significant loss in viability was observed in cells exposed to free AlPcS4 photosensitizer under the same irradiation conditions.
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Ondansetron attenuates CCK induced satiety and c-fos labeling in the dorsal medulla.
Randall S. Daughters,Randall D. Hofbauer,Aaron W. Grossman,Anne Marie Marshall,Eric Brown,Boyd K. Hartman,Patricia L. Faris +6 more
TL;DR: The effect of a ondansetron on exogenous CCK induced satiety and c-fos activation was determined, and it was found that a distinct subpopulation of CCK receptive fibers are modulated by 5-HT(3) ligands.
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