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Oceanit Develops Handheld Device for Trauma

April 16, 2015 - Imagine you or a loved one is in an accident. The emergency medical technicians (EMTs) and paramedics arrive and begin to administer aid, but are unable to determine at the scene if one of the injured has a blood clotting issue. Blood clotting, or coagulation, is an important process when platelets (a type of blood cell) and the proteins in plasma (the liquid part of blood) work together to stop the bleeding by forming a clot. Often after severe trauma, a victim’s ability to clot is often compromised, increasing the likelihood of death.

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Oceanit Research May Provide Key to Future Satellite Harvesting Techniques

April 2, 2015 - How close does a scene from a science fiction space Hollywood movie compare with reality? In the 2013 film Gravity, a space mission becomes deadly when a defunct satellite is hit by a missile strike, causing space debris. The space debris, traveling at high speed, typically several kilometers per second, can cause catastrophic damage. To characterize the potential threat of a collision similar to the one depicted in the movie, it is important to understand the dynamics of inactive satellites.

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Oceanit Hosts Youth Leaders

March 18, 2015 - It has been said that children are our future; we should teach them well and let them lead the way. One such way of doing so is by providing opportunities for youth to explore the various careers and professions available to them as an adult. Job shadowing connects students with business, government, and academic professionals in their field of interest to learn about a typical day in a profession and gain firsthand knowledge of the duties and responsibilities involved.

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Nanoenergetics: Small Particles Yielding a Large Impact!

March 3, 2015 - Thinking small can often have a big impact. This is definitely the case in nanoenergetics, a field of materials engineering using tiny particles that enables super-efficient combustion on a nano-scale. When scaled and combined, the greater surface area has better contact with oxidizing chemicals – allowing the delivery of a very, very efficient combustion.

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