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been stored over years that has made possible the current growth and way of life as we know it today. Harnessing this energy would help solve the world’s energy crisis.17 Although this solution has been identified, solar power is only used to meet 0.04 % of the total yearly demand, with Japan, Germany and the USA at the forefront of solar power harvesting.18 The solution, although seemingly perfect, is quite difficult in execution. The primary limitation is cost, with materials compromising 70 % of that cost, the remainder being assembly, installation and maintenance. Currently, the overall cost of solar power is roughly 5 to 10 times greater than electricity, which is currently a major drawback to worldwide adoption of this potential solution. Additional difficulties for this technology to be accepted include the low energy density of solar power, as the previously mentioned energy delivered to Earth is spread across the entire planet. This is compounded by the fact that the majority of the Earth is uninhabitable due to water and extreme climates. Current efficiency of solar cells is about 10 – 30 %, which again reduces the total amount of obtainable energy from solar power. Finally, the unpredictability of weather, which greatly reduces the percentage of obtainable energy from the sun, is an additional concern. Although these difficulties are great, advances in the technical side as well as a growing market to cater to the nontechnical economic challenges of this technology are quickly changing this into the solution it is meant to be. 137PDF Image | Supercritical Fluid Deposition Of Thin Metal Films
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Sulfur Deposition on Carbon Nanofibers using Supercritical CO2 Sulfur Deposition on Carbon Nanofibers using Supercritical CO2. Gamma sulfur also known as mother of pearl sulfur and nacreous sulfur... More Info
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