Y. Hwu scite author profile

Biocompatible Au nanoparticles with surfaces modified by PEG (polyethylene glycol) were developed in view of possible applications for the enhancement of radiotherapy. Such nanoparticles exhibit preferential deposition at tumor sites due to the enhanced permeation and retention (EPR) effect. Here, we systematically studied their effects on EMT-6 and CT26 cell survival rates during irradiation for a dose up to 10 Gy with a commercial biological irradiator (E(average) = 73 keV), a Cu-Kalpha(1) x-ray source (8.048 keV), a monochromatized synchrotron source (6.5 keV), a radio-oncology linear accelerator (6 MeV) and a proton source (3 MeV). The percentage of surviving cells after irradiation was found to decrease by approximately 2-45% in the presence of PEG-Au nanoparticles ([Au] = 400, 500 or 1000 microM). The cell survival rates decreased as a function of the dose for all sources and nanoparticle concentrations. These results could open the way to more effective cancer irradiation therapies by using nanoparticles with optimized surface treatment. Difficulties in applying MTT assays were also brought to light, showing that this approach is not suitable for radiobiology.

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Biocompatibility of Fe₃O₄nanoparticles evaluated byin vitrocytotoxicity assays using normal, glia and breast cancer cells

Ankamwar

et al. 2010

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In order to reveal the biocompatibility of Fe(3)O(4) nanoparticles and bipolar surfactant tetramethylammonium 11-aminoundecanoate cytotoxicity tests were performed as a function of concentration from low (0.1 microg ml(-1)) to higher concentration (100 microg ml(-1)) using various human glia, human breast cancer and normal cell lines. Cytotoxicity tests for human glia (D54MG, G9T, SF126, U87, U251, U373), human breast cancer (MB157, SKBR3, T47D) and normal (H184B5F5/M10, WI-38, SVGp12) cell lines exhibited almost nontoxicity and reveal biocompatibility of Fe(3)O(4) nanoparticles in the concentration range of 0.1-10 microg ml(-1), while accountable cytotoxicity can be seen at 100 microg ml(-1). The results of our studies suggest that Fe(3)O(4) nanoparticles coated with bipolar surfactant tetramethylammonium 11-aminoundecanoate are biocompatible and promising for bio-applications such as drug delivery, magnetic resonance imaging and magnetic hyperthermia.

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Building on bubbles in metal electrodeposition

Tsai

Hsu

Hwu

et al. 2002

Nature

164

119

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In the electrodeposition of metals, a widely used industrial technique, bubbles of gas generated near the cathode can adversely affect the quality of the metal coating. Here we use phase-contrast radiology with synchrotron radiation to witness directly and in real time the accumulation of zinc on hydrogen bubbles. This process explains the origin of the bubble-shaped defects that are common in electrodeposited coatings.

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Nondestructive Nanoscale 3D Elemental Mapping and Analysis of a Solid Oxide Fuel Cell Anode

Grew

Chu

et al. 2010

J. Electrochem. Soc.

132

115

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Present solid oxide fuel cells (SOFCs) use complex materials to provide (i) sufficient stability and support, (ii) electronic, ionic, and mass transport, and (iii) electrocatalytic activity. However, there is a limited quantitative understanding of the effect of the SOFC's three dimensional (3D) nano/microstructure on electronic, ionic, and mass-transfer-related losses. Here, a nondestructive tomographic imaging technique at 38.5 nm spatial resolution is used along with numerical models to examine the phase and pore networks within an SOFC anode and to provide insight into the heterogeneous microstructure’s contributions to the origins of transport-related losses. The microstructure produces substantial localized structure-induced losses, with approximately 50% of those losses arising from phase cross-sectional diameters of 0.2μm or less.

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Optimization of overlap uniformness for ptychography

Huang¹,

Yan²,

Harder³

et al. 2014

Opt. Express

151

101

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We demonstrate the advantages of imaging with ptychography scans that follow a Fermat spiral trajectory. This scan pattern provides a more uniform coverage and a higher overlap ratio with the same number of scan points over the same area than the presently used mesh and concentric [13] patterns. Under realistically imperfect measurement conditions, numerical simulations show that the quality of the reconstructed image is improved significantly with a Fermat spiral compared with a concentric scan pattern. The result is confirmed by the performance enhancement with experimental data, especially under low-overlap conditions. These results suggest that the Fermat spiral pattern increases the quality of the reconstructed image and tolerance to data with imperfections.

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Coherence-enhanced synchrotron radiology: simple theory and practical applications

Hwu

Tsai

Groso

et al. 2002

J. Phys. D: Appl. Phys.

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Hard-x-ray microscopy with Fresnel zone plates reaches 40nm Rayleigh resolution

Chu

Carlo

et al. 2008

178

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Substantial improvements in the nanofabrication and characteristics of gold Fresnel zone plates yielded unprecedented resolution levels in hard-x-ray microscopy. Tests performed on a variety of specimens with 8–10keV photons demonstrated a first-order lateral resolution below 40nm based on the Rayleigh criterion. Combined with the use of a phase contrast technique, this makes it possible to view features in the 30nm range; good-quality images can be obtained at video rate, down to 50ms∕frame. The important repercussions on materials science, nanotechnology, and the life sciences are discussed.

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Biosensing, Cytotoxicity, and Cellular Uptake Studies of Surface-Modified Gold Nanorods

et al. 2009

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Herein we report biorecognition studies of protein IgG using biocomapatible gold nanorods as molecular probes. Surface modification of cetyltrimethylammonium bromide (CTAB)-stabilized gold nanorods was carried out by using poly(styrenesulfonate) (PSS) to reduce the toxicity of as-synthesized gold nanorods caused by free CTAB. ζ potential analysis confirmed charge reversal on the surface of gold nanorods caused by the PSS coating. Surface plasmon resonance exhibited by gold nanorods has been employed as a tool for analyzing the binding events for biomolecules. TEM results, showing the aggregation of gold nanorods, in addition to the shift in surface plasmon resonance peak in UV−vis absorption measurements, upon the interaction of biomolecules with gold nanorods, confirmed molecular binding. Morphological changes caused by the cellular uptake of gold nanorods before and after PSS modification have been observed. Cell viability studies using gold nanorods were performed to study the cytotoxic effects of these molecular probes.

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Y. Hwu

Enhancement of cell radiation sensitivity by pegylated gold nanoparticles

Biocompatibility of Fe₃O₄nanoparticles evaluated byin vitrocytotoxicity assays using normal, glia and breast cancer cells

Building on bubbles in metal electrodeposition

Nondestructive Nanoscale 3D Elemental Mapping and Analysis of a Solid Oxide Fuel Cell Anode

Optimization of overlap uniformness for ptychography

Coherence-enhanced synchrotron radiology: simple theory and practical applications

Hard-x-ray microscopy with Fresnel zone plates reaches 40nm Rayleigh resolution

Biosensing, Cytotoxicity, and Cellular Uptake Studies of Surface-Modified Gold Nanorods

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Y. Hwu

Enhancement of cell radiation sensitivity by pegylated gold nanoparticles

Biocompatibility of Fe3O4nanoparticles evaluated byin vitrocytotoxicity assays using normal, glia and breast cancer cells

Building on bubbles in metal electrodeposition

Nondestructive Nanoscale 3D Elemental Mapping and Analysis of a Solid Oxide Fuel Cell Anode

Optimization of overlap uniformness for ptychography

Coherence-enhanced synchrotron radiology: simple theory and practical applications

Hard-x-ray microscopy with Fresnel zone plates reaches 40nm Rayleigh resolution

Biosensing, Cytotoxicity, and Cellular Uptake Studies of Surface-Modified Gold Nanorods

Contact Info

Product

Resources

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Biocompatibility of Fe₃O₄nanoparticles evaluated byin vitrocytotoxicity assays using normal, glia and breast cancer cells