( Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2010; 109: 294-302)”
“Electrostatic levitation holds great promise for the semiconductor, solar panel, and flat-panel display industry where the handling of dielectrics in a contact-free manner can bring many advantages and solve long-standing contamination and particulate control problems. In this work an analytical model is developed for the electrostatic levitation field between a lossy dielectric plate and a generic stator electrode structure consisting of a regular planar array of parallel bar electrodes. Time-varying voltages of differing polarities

are alternatingly applied to the bar electrodes. Atmospheric humidity-related GSK923295 nmr surface conduction on the plate is explicitly taken into account in the model since it has a profound effect on the field dynamics. Based on this model, the electrostatic MCC950 order levitation force is calculated using the Maxwell stress tensor formulation. The levitation force dynamics are investigated by evaluating the transient response of the field under a step in the applied

voltages. In this context, the rate of electric charge build up on the plate is characterized by the suspension initiation time (T(ST)), which is defined as the time elapsed between applying step voltages to the stator electrodes and start of lift-off of the dielectric plate from its initial position. T(SI) is theoretically predicted for 0.7 mm thick soda-lime glass substrates, typically used in the manufacturing of liquid crystal displays (LCD), as a function of electrode geometry, air gap separation, ambient humidity, and step voltage magnitudes. The predicted results are shown to be in good agreement with previously published click here experimental data for soda-lime glass substrates. (C) 2010 American Institute of Physics. [doi:10.1063/1.3487938]“
“The effect of UV radiation on a family of low density polyethylene films containing different concentrations of TiO2 nanoparticles has been studied. The photodegradation was monitored using FTIR measurements of carbonyl group development and

an in situ FTIR method that tracks the generation of CO2 as a principal product of degradation. Samples containing dispersant and/or a phenolic antioxidant but free from TiO2 particles were examined as controls. It was shown that the effects of photodegradation of the polymers could be followed even when these additives were present. The dispersant gave rise to absorption in the carbonyl region of the IR spectrum but meaningful results concerning the progress of photodegradation were obtained using difference spectra. Good correlation was found between the carbonyl and the CO2 measurements of the relative photosensitivities of the films with different compositions, and both methods indicated that addition of the nano-particulate rutile TiO2 had decreased the film photostability.