|1.||Barany, Sandor: 1 article (08/2015)|
|2.||Juillerat-Jeanneret, Lucienne: 1 article (05/2013)|
|3.||Angeloni, Silvia: 1 article (05/2013)|
|4.||Chapuis Bernasconi, Catherine: 1 article (05/2013)|
|5.||Halamoda Kenzaoui, Blanka: 1 article (05/2013)|
|6.||Liley, Martha: 1 article (05/2013)|
|7.||Overstolz, Thomas: 1 article (05/2013)|
|8.||Niedermann, Philippe: 1 article (05/2013)|
|9.||Gorth, Deborah J: 1 article (01/2012)|
|10.||Ercan, Batur: 1 article (01/2012)|
|1.||AIDS-Related Complex (ARC)
05/01/2008 - "Compared with a silicon nitride (SiN) single layer ARC, ZnO nanorod arrays display a broadband reflection suppression from 400 to 1200 nm. For a tapered nanorod array with average tip diameter of 10 nm, we achieve a weighted global reflectance of 6.6%, which is superior to an optimized SiN single layer ARC. "
10/01/2011 - "Nanocomposite Si3N4/TiO2 coatings were prepared by micro arc oxidation with Si3N4 nanoparticles in solution and the effects of time and current density on the coatings formation and growth were studied. "
10/01/2011 - "Characterization of Si3N4/TiO2 nanocomposite coatings prepared via micro arc oxidation."
|2.||Bacterial Infections (Bacterial Infection)
01/01/2012 - "In this study, three biomaterials that are used in spinal implants--titanium (Ti), polyether-ether-ketone (PEEK), and silicon nitride (Si₃N₄)--were tested to understand their respective susceptibility to bacterial infection with Staphylococcus epidermidis, Staphlococcus aureus, Pseudomonas aeruginosa, Escherichia coli and Enterococcus. "
06/06/2011 - "We show by simulation that extremely flat and low dispersion can be achieved in silicon nitride slot waveguides over a wavelength band of 500 nm. Different from most of previously reported supercontinua that were generated either by higher-order soliton fission in anomalous dispersion regime or by self-phase modulation in normal dispersion regime, a two-octave supercontinuum from 630 to 2650 nm (360 THz in total) can be generated by enhancing self-steepening in pulse propagation in nearly zero dispersion regime, when an optical shock as short as 3 fs is formed."
01/04/2002 - "3) Macroscopic amounts of spinel silicon nitride were synthesized by shock-wave techniques, which allows the comprehensive characterization and possibly the implementation of this new hard material."
12/19/2006 - "The results for the PECVD silicon nitride, which has been previously reported as unsuitable for microarray spotting, are particularly significant for future devices that hope to incorporate microelectronic control and analysis circuitry, due to the film's use as a final passivating layer."
|2.||Ethyl Ether (Ether)
|3.||Biocompatible Materials (Biomaterials)
|7.||Polyethylene Glycols (Polyethylene Glycol)