scholarly journals SHORT IRRADIATION TIME CHARACTERISTICS OF THE INVERTER TYPE X-RAY GENERATOR

1994 ◽  
Vol 50 (4) ◽  
pp. 497-504
Author(s):  
SHIGERU MIYAZAKI ◽  
TAKAMITU HARA ◽  
KAZUO MATUTANI ◽  
KAZUHIKO SAITO
Keyword(s):  
Irradiation Time ◽  
X Ray ◽  
Short Irradiation ◽  
Short Irradiation Time

A Caged E3 Ligase Ligand for PROTAC-Mediated Protein Degradation with Light

2019 ◽  
Author(s):  
Cyrille Kounde ◽  
Maria M. Shchepinova ◽  
Edward Tate
Keyword(s):  
Protein Degradation ◽  
Irradiation Time ◽  
E3 Ligase ◽  
Von Hippel Lindau ◽  
Short Irradiation ◽  
Short Irradiation Time ◽  
Spatiotemporal Control

A caging group has been appended to a widely used Von Hippel Lindau (VHL) E3 ligase ligand for targeted protein degradation with PROTACs. Proteolysis is triggered only after a short irradiation time allowing spatiotemporal control of the protein’s fate.

Insufficient cure under the condition of high irradiance and short irradiation time

2009 ◽  
Vol 25 (3) ◽  
pp. 283-289 ◽  
Author(s):  
Li Feng ◽  
Ricardo Carvalho ◽  
Byoung I. Suh
Keyword(s):  
Irradiation Time ◽  
High Irradiance ◽  
Short Irradiation ◽  
Short Irradiation Time

Energy distribution of235U fission-product? radiation for a short irradiation time

1979 ◽  
Vol 46 (6) ◽  
pp. 469-470 ◽  
Author(s):  
M. A. Markina ◽  
E. S. Stariznyi ◽  
A. Kh. Breger
Keyword(s):  
Energy Distribution ◽  
Fission Product ◽  
Irradiation Time ◽  
Short Irradiation ◽  
Short Irradiation Time

A Caged E3 Ligase Ligand for PROTAC-Mediated Protein Degradation with Light

2019 ◽  
Author(s):  
Cyrille Kounde ◽  
Maria M. Shchepinova ◽  
Edward Tate
Keyword(s):  
Protein Degradation ◽  
Irradiation Time ◽  
E3 Ligase ◽  
Von Hippel Lindau ◽  
Short Irradiation ◽  
Short Irradiation Time ◽  
Spatiotemporal Control

A caging group has been appended to a widely used Von Hippel Lindau (VHL) E3 ligase ligand for targeted protein degradation with PROTACs. Proteolysis is triggered only after a short irradiation time allowing spatiotemporal control of the protein’s fate.

A Caged E3 Ligase Ligand for PROTAC-Mediated Protein Degradation with Light

2019 ◽  
Author(s):  
Cyrille Kounde ◽  
Maria M. Shchepinova ◽  
Edward Tate
Keyword(s):  
Protein Degradation ◽  
Irradiation Time ◽  
E3 Ligase ◽  
Von Hippel Lindau ◽  
Short Irradiation ◽  
Short Irradiation Time ◽  
Spatiotemporal Control

A caging group has been appended to a widely used Von Hippel Lindau (VHL) E3 ligase ligand for targeted protein degradation with PROTACs. Proteolysis is triggered only after a short irradiation time allowing spatiotemporal control of the protein’s fate.

scholarly journals X-ray Fluorescence Uptake Measurement of Functionalized Gold Nanoparticles in Tumor Cell Microsamples

2021 ◽  
Vol 22 (7) ◽  
pp. 3691
Author(s):  
Oliver Schmutzler ◽  
Sebastian Graf ◽  
Nils Behm ◽  
Wael Y. Mansour ◽  
Florian Blumendorf ◽  
...  
Keyword(s):  
Gold Nanoparticles ◽  
Irradiation Time ◽  
High Sensitivity ◽  
Nanoparticle Uptake ◽  
X Ray ◽  
Functionalized Gold Nanoparticles ◽  
Uptake Measurement ◽  
Prostate Tumor Cells ◽  
Non Destructive

Quantitative cellular in vitro nanoparticle uptake measurements are possible with a large number of different techniques, however, all have their respective restrictions. Here, we demonstrate the application of synchrotron-based X-ray fluorescence imaging (XFI) on prostate tumor cells, which have internalized differently functionalized gold nanoparticles. Total nanoparticle uptake on the order of a few hundred picograms could be conveniently observed with microsamples consisting of only a few hundreds of cells. A comparison with mass spectroscopy quantification is provided, experimental results are both supported and sensitivity limits of this XFI approach extrapolated by Monte-Carlo simulations, yielding a minimum detectable nanoparticle mass of just 5 pg. This study demonstrates the high sensitivity level of XFI, allowing non-destructive uptake measurements with very small microsamples within just seconds of irradiation time.

scholarly journals Surfactant-Free Microwave-Assisted Synthesis of Fe-Doped ZnO Nanostars as Photocatalyst for Degradation of Tropaeolin O in Water under Visible Light

2015 ◽  
Vol 2015 ◽  
pp. 1-9 ◽  
Author(s):  
Tsz-Lung Kwong ◽  
Ka-Fu Yung
Keyword(s):  
Visible Light ◽  
Photocatalytic Degradation ◽  
Irradiation Time ◽  
Catalyst Loading ◽  
Orthogonal Experimental Design ◽  
Microwave Assisted Synthesis ◽  
X Ray ◽  
Microwave Assisted ◽  
Vis Spectroscopy ◽  
Doped Zno

Iron-doped zinc oxide nanostar was synthesized by the microwave-assisted surfactant-free hydrolysis method. The as-synthesized Fe-doped ZnO nanostars catalyst was fully characterized by scanning electron microscope (SEM), transmission electron microscopy (TEM), energy dispersive X-ray spectroscopy (EDX), powder X-ray diffraction (XRD), and diffuse reflectance UV-vis spectroscopy (UV-DRA). The photocatalytic activity of the photocatalyst was investigated for the photocatalytic degradation of Tropaeolin O under visible light irradiation. It is observed that the doping of Fe ions enhances the absorption of the visible light and thus the photocatalytic degradation rate of Tropaeolin O would increase. Despite the Taguchi orthogonal experimental design method, the photocatalytic conversion could be achieved at 99.8% in the Fe-doped ZnO catalyzed photodegradation reaction under the optimal reaction conditions of catalyst loading (30 mg), temperature (60°C), light distance (0 cm), initial pH (pH = 9), and irradiation time (3 h). The Fe-doped ZnO photocatalyst can also be easily recovered and directly reused for eight cycles with over 70% conversion.

Preparation of cathode active materials for lithium ion secondary batteries utilizing microwave irradiation: Part II. Electronic structure of lithium manganese oxide

2004 ◽  
Vol 19 (8) ◽  
pp. 2421-2427 ◽  
Author(s):  
Shota Kobayashi ◽  
Tatsuya Usui ◽  
Hiromasa Ikuta ◽  
Yoshiharu Uchimoto ◽  
Masataka Wakihara
Keyword(s):  
Electronic Structure ◽  
Microwave Irradiation ◽  
Manganese Oxide ◽  
Irradiation Time ◽  
Lithium Ion ◽  
Lithium Manganese Oxide ◽  
X Ray ◽  
Lithium Manganese ◽  
Before And After ◽  
Diffraction Patterns

The microwave irradiation technique (MWIT) was applied to synthesize lithium manganese oxide having spinel structure using LiOH·H2O and ε–MnO2 as starting materials. The crystal and electronic structure depends on the irradiation time; x-ray diffraction patterns of the sample irradiated for 9 min were in good agreement with that of cubic structure without showing the peak of MnO2. The electronic structure of synthesized samples before and after lithium ion intercalation and/or deintercalation was investigated by Mn L-edge and O K-edge x-ray absorption spectroscopy.

Preparation and Characterization of CdSe Nanoparticles Synthesized Using the Ultrasonic Irradiation

2007 ◽  
Vol 124-126 ◽  
pp. 1229-1232 ◽  
Author(s):  
Myoung Seok Sung ◽  
Yoon Bok Lee ◽  
Yong Jin Kim ◽  
Yang Do Kim
Keyword(s):  
Ultrasonic Irradiation ◽  
Photoelectron Spectroscopy ◽  
Irradiation Time ◽  
Xrd Analysis ◽  
Cdse Nanoparticles ◽  
X Ray Diffraction ◽  
X Ray ◽  
Surface Emission ◽  
Transmission Electron ◽  
Average Size

Cadmium selenide(CdSe) nanoparticles were prepared in the aqueous solution containing isopropyl alcohol by the ultrasonic irradiation at room temperature. The cadmium chloride (CdCl2) and sodium selenosulfate (Na2SeSO3) were used as the cadmium and selenium source, respectively. X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), UV-Vis absorption spectra and PL spectra were used to characterize the CdSe nanoparticles. XRD analysis revealed the formation of cubic structure CdSe. TEM images showed aggregated CdSe nanoparticles with the size of nanometer scale. Average size of CdSe nanoparticles were about 3.9, 5.0 and 5.1nm with sonication time of 6, 30 and 40 minutes, respectively. The surface emission became less intensive and shifted to red with increasing irradiation time. This paper presents the effects of ultrasonic on the formation of CdSe nanoparticles and its characteristics.

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