Matt Moynihan scite author profile

BackgroundCollege and university students experience substantial morbidity from influenza and influenza-like illness, and they can benefit substantially from vaccination. Public health authorities encourage vaccination not only before the influenza season but also into and even throughout the influenza season. We conducted the present study to assess the impact of various vaccination strategies including delayed (i.e., in-season) vaccination on influenza outbreaks on a college campus.Methods/FindingsWe used a Susceptible → Infected → Recovered (SIR) framework for our mathematical models to simulate influenza epidemics in a closed, college campus. We included both students and faculty/staff in the model and derived values for the model parameters from the published literature. The values for key model parameters were varied to assess the impact on the outbreak of various pre-season and delayed vaccination rates; one-way sensitivity analyses were conducted to test the sensitivity of the model outputs to changes in selected parameter values. In the base case, with a pre-season vaccination rate of 20%, no delayed vaccination, and 1 student index case, the total attack rate (total percent infected, TAR) was 45%. With higher pre-season vaccination rates TARs were lower. Even if vaccinations were given 30 days after outbreak onset, TARs were still lower than the TAR of 69% in the absence of vaccination. Varying the proportions of vaccinations given pre-season versus delayed until after the onset of the outbreak gave intermediate TAR values. Base case outputs were sensitive to changes in infectious contact rates and infectious periods and a holiday/break schedule.ConclusionDelayed vaccination and holidays/breaks can be important adjunctive measures to complement traditional pre-season influenza vaccination for controlling and preventing influenza in a closed college campus.

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In-line and vertical texturing of mono-crystalline solar cells

Moynihan

O'Connor

Barr

et al. 2010

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Potassium Hydroxide (KOH) and Isopropanol (IPA) are currently being used to texturize and reduce the reflectivity of mono crystalline (mono-c) silicon wafer surfaces during the manufacturing of solar cells. One concern with this process is that the IPA is volatile which can lead to high replenishment rates, poor process stability, and increased costs. The flammable nature of the IPA should also be highlighted which can lead to handling and safety concerns. The goal of this work was to develop an IPA free process that does not compromise texturing or cell performance while providing improved process control. A secondary goal was to develop a chemistry that would allow for in-line texturing of mono-crystalline substrates

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Interaction between post wire saw cleaning and the subsequent cell fabrication saw damage etch and texturing process

Allardyce

Barr

Chan

et al. 2010

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Matt Moynihan

Flexible optical interconnects based on silicon-containing polymers

Modeling Seasonal Influenza Outbreak in a Closed College Campus: Impact of Pre-Season Vaccination, In-Season Vaccination and Holidays/Breaks

In-line and vertical texturing of mono-crystalline solar cells

Interaction between post wire saw cleaning and the subsequent cell fabrication saw damage etch and texturing process

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